Mercurial > hg > xemacs-beta
view src/glyphs.c @ 404:2f8bb876ab1d r21-2-32
Import from CVS: tag r21-2-32
| author | cvs |
|---|---|
| date | Mon, 13 Aug 2007 11:16:07 +0200 |
| parents | a86b2b5e0111 |
| children | b8cc9ab3f761 |
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/* Generic glyph/image implementation + display tables Copyright (C) 1994, 1995 Board of Trustees, University of Illinois. Copyright (C) 1995 Tinker Systems Copyright (C) 1995, 1996 Ben Wing Copyright (C) 1995 Sun Microsystems Copyright (C) 1998, 1999, 2000 Andy Piper 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* Synched up with: Not in FSF. */ /* Written by Ben Wing and Chuck Thompson. Heavily modified / rewritten by Andy Piper. */ #include <config.h> #include "lisp.h" #include "buffer.h" #include "device.h" #include "elhash.h" #include "faces.h" #include "frame.h" #include "insdel.h" #include "opaque.h" #include "objects.h" #include "redisplay.h" #include "window.h" #include "frame.h" #include "chartab.h" #include "rangetab.h" #include "blocktype.h" #ifdef HAVE_XPM #include <X11/xpm.h> #endif Lisp_Object Qimage_conversion_error; Lisp_Object Qglyphp, Qcontrib_p, Qbaseline; Lisp_Object Qbuffer_glyph_p, Qpointer_glyph_p, Qicon_glyph_p; Lisp_Object Qnothing_image_instance_p, Qtext_image_instance_p; Lisp_Object Qmono_pixmap_image_instance_p; Lisp_Object Qcolor_pixmap_image_instance_p; Lisp_Object Qpointer_image_instance_p; Lisp_Object Qsubwindow_image_instance_p; Lisp_Object Qlayout_image_instance_p; Lisp_Object Qupdate_widget_instances; Lisp_Object Qwidget_image_instance_p; Lisp_Object Qconst_glyph_variable; Lisp_Object Qmono_pixmap, Qcolor_pixmap, Qsubwindow; Lisp_Object Q_file, Q_data, Q_face, Q_pixel_width, Q_pixel_height; Lisp_Object Qformatted_string; Lisp_Object Vcurrent_display_table; Lisp_Object Vtruncation_glyph, Vcontinuation_glyph, Voctal_escape_glyph; Lisp_Object Vcontrol_arrow_glyph, Vinvisible_text_glyph, Vhscroll_glyph; Lisp_Object Vxemacs_logo; Lisp_Object Vthe_nothing_vector; Lisp_Object Vimage_instantiator_format_list; Lisp_Object Vimage_instance_type_list; Lisp_Object Vglyph_type_list; int disable_animated_pixmaps; DEFINE_IMAGE_INSTANTIATOR_FORMAT (nothing); DEFINE_IMAGE_INSTANTIATOR_FORMAT (inherit); DEFINE_IMAGE_INSTANTIATOR_FORMAT (string); DEFINE_IMAGE_INSTANTIATOR_FORMAT (formatted_string); DEFINE_IMAGE_INSTANTIATOR_FORMAT (subwindow); DEFINE_IMAGE_INSTANTIATOR_FORMAT (text); #ifdef HAVE_WINDOW_SYSTEM DEFINE_IMAGE_INSTANTIATOR_FORMAT (xbm); Lisp_Object Qxbm; Lisp_Object Q_mask_file, Q_mask_data, Q_hotspot_x, Q_hotspot_y; Lisp_Object Q_foreground, Q_background; #ifndef BitmapSuccess #define BitmapSuccess 0 #define BitmapOpenFailed 1 #define BitmapFileInvalid 2 #define BitmapNoMemory 3 #endif #endif #ifdef HAVE_XFACE DEFINE_IMAGE_INSTANTIATOR_FORMAT (xface); Lisp_Object Qxface; #endif #ifdef HAVE_XPM DEFINE_IMAGE_INSTANTIATOR_FORMAT (xpm); Lisp_Object Qxpm; Lisp_Object Q_color_symbols; #endif typedef struct image_instantiator_format_entry image_instantiator_format_entry; struct image_instantiator_format_entry { Lisp_Object symbol; Lisp_Object device; struct image_instantiator_methods *meths; }; typedef struct { Dynarr_declare (struct image_instantiator_format_entry); } image_instantiator_format_entry_dynarr; image_instantiator_format_entry_dynarr * the_image_instantiator_format_entry_dynarr; static Lisp_Object allocate_image_instance (Lisp_Object device, Lisp_Object glyph); static void image_validate (Lisp_Object instantiator); static void glyph_property_was_changed (Lisp_Object glyph, Lisp_Object property, Lisp_Object locale); static void set_image_instance_dirty_p (Lisp_Object instance, int dirty); static void register_ignored_expose (struct frame* f, int x, int y, int width, int height); /* Unfortunately windows and X are different. In windows BeginPaint() will prevent WM_PAINT messages being generated so it is unnecessary to register exposures as they will not occur. Under X they will always occur. */ int hold_ignored_expose_registration; EXFUN (Fimage_instance_type, 1); EXFUN (Fglyph_type, 1); EXFUN (Fnext_window, 4); /**************************************************************************** * Image Instantiators * ****************************************************************************/ struct image_instantiator_methods * decode_device_ii_format (Lisp_Object device, Lisp_Object format, Error_behavior errb) { int i; if (!SYMBOLP (format)) { if (ERRB_EQ (errb, ERROR_ME)) CHECK_SYMBOL (format); return 0; } for (i = 0; i < Dynarr_length (the_image_instantiator_format_entry_dynarr); i++) { if ( EQ (format, Dynarr_at (the_image_instantiator_format_entry_dynarr, i). symbol) ) { Lisp_Object d = Dynarr_at (the_image_instantiator_format_entry_dynarr, i). device; if ((NILP (d) && NILP (device)) || (!NILP (device) && EQ (CONSOLE_TYPE (XCONSOLE (DEVICE_CONSOLE (XDEVICE (device)))), d))) return Dynarr_at (the_image_instantiator_format_entry_dynarr, i).meths; } } maybe_signal_simple_error ("Invalid image-instantiator format", format, Qimage, errb); return 0; } struct image_instantiator_methods * decode_image_instantiator_format (Lisp_Object format, Error_behavior errb) { return decode_device_ii_format (Qnil, format, errb); } static int valid_image_instantiator_format_p (Lisp_Object format, Lisp_Object locale) { int i; struct image_instantiator_methods* meths = decode_image_instantiator_format (format, ERROR_ME_NOT); Lisp_Object contype = Qnil; /* mess with the locale */ if (!NILP (locale) && SYMBOLP (locale)) contype = locale; else { struct console* console = decode_console (locale); contype = console ? CONSOLE_TYPE (console) : locale; } /* nothing is valid in all locales */ if (EQ (format, Qnothing)) return 1; /* reject unknown formats */ else if (NILP (contype) || !meths) return 0; for (i = 0; i < Dynarr_length (meths->consoles); i++) if (EQ (contype, Dynarr_at (meths->consoles, i).symbol)) return 1; return 0; } DEFUN ("valid-image-instantiator-format-p", Fvalid_image_instantiator_format_p, 1, 2, 0, /* Given an IMAGE-INSTANTIATOR-FORMAT, return non-nil if it is valid. If LOCALE is non-nil then the format is checked in that domain. If LOCALE is nil the current console is used. Valid formats are some subset of 'nothing, 'string, 'formatted-string, 'xpm, 'xbm, 'xface, 'gif, 'jpeg, 'png, 'tiff, 'cursor-font, 'font, 'autodetect, 'widget and 'subwindow, depending on how XEmacs was compiled. */ (image_instantiator_format, locale)) { return valid_image_instantiator_format_p (image_instantiator_format, locale) ? Qt : Qnil; } DEFUN ("image-instantiator-format-list", Fimage_instantiator_format_list, 0, 0, 0, /* Return a list of valid image-instantiator formats. */ ()) { return Fcopy_sequence (Vimage_instantiator_format_list); } void add_entry_to_device_ii_format_list (Lisp_Object device, Lisp_Object symbol, struct image_instantiator_methods *meths) { struct image_instantiator_format_entry entry; entry.symbol = symbol; entry.device = device; entry.meths = meths; Dynarr_add (the_image_instantiator_format_entry_dynarr, entry); Vimage_instantiator_format_list = Fcons (symbol, Vimage_instantiator_format_list); } void add_entry_to_image_instantiator_format_list (Lisp_Object symbol, struct image_instantiator_methods *meths) { add_entry_to_device_ii_format_list (Qnil, symbol, meths); } static Lisp_Object * get_image_conversion_list (Lisp_Object console_type) { return &decode_console_type (console_type, ERROR_ME)->image_conversion_list; } DEFUN ("set-console-type-image-conversion-list", Fset_console_type_image_conversion_list, 2, 2, 0, /* Set the image-conversion-list for consoles of the given TYPE. The image-conversion-list specifies how image instantiators that are strings should be interpreted. Each element of the list should be a list of two elements (a regular expression string and a vector) or a list of three elements (the preceding two plus an integer index into the vector). The string is converted to the vector associated with the first matching regular expression. If a vector index is specified, the string itself is substituted into that position in the vector. Note: The conversion above is applied when the image instantiator is added to an image specifier, not when the specifier is actually instantiated. Therefore, changing the image-conversion-list only affects newly-added instantiators. Existing instantiators in glyphs and image specifiers will not be affected. */ (console_type, list)) { Lisp_Object tail; Lisp_Object *imlist = get_image_conversion_list (console_type); /* Check the list to make sure that it only has valid entries. */ EXTERNAL_LIST_LOOP (tail, list) { Lisp_Object mapping = XCAR (tail); /* Mapping form should be (STRING VECTOR) or (STRING VECTOR INTEGER) */ if (!CONSP (mapping) || !CONSP (XCDR (mapping)) || (!NILP (XCDR (XCDR (mapping))) && (!CONSP (XCDR (XCDR (mapping))) || !NILP (XCDR (XCDR (XCDR (mapping))))))) signal_simple_error ("Invalid mapping form", mapping); else { Lisp_Object exp = XCAR (mapping); Lisp_Object typevec = XCAR (XCDR (mapping)); Lisp_Object pos = Qnil; Lisp_Object newvec; struct gcpro gcpro1; CHECK_STRING (exp); CHECK_VECTOR (typevec); if (!NILP (XCDR (XCDR (mapping)))) { pos = XCAR (XCDR (XCDR (mapping))); CHECK_INT (pos); if (XINT (pos) < 0 || XINT (pos) >= XVECTOR_LENGTH (typevec)) args_out_of_range_3 (pos, Qzero, make_int (XVECTOR_LENGTH (typevec) - 1)); } newvec = Fcopy_sequence (typevec); if (INTP (pos)) XVECTOR_DATA (newvec)[XINT (pos)] = exp; GCPRO1 (newvec); image_validate (newvec); UNGCPRO; } } *imlist = Fcopy_tree (list, Qt); return list; } DEFUN ("console-type-image-conversion-list", Fconsole_type_image_conversion_list, 1, 1, 0, /* Return the image-conversion-list for devices of the given TYPE. The image-conversion-list specifies how to interpret image string instantiators for the specified console type. See `set-console-type-image-conversion-list' for a description of its syntax. */ (console_type)) { return Fcopy_tree (*get_image_conversion_list (console_type), Qt); } /* Process a string instantiator according to the image-conversion-list for CONSOLE_TYPE. Returns a vector. */ static Lisp_Object process_image_string_instantiator (Lisp_Object data, Lisp_Object console_type, int dest_mask) { Lisp_Object tail; LIST_LOOP (tail, *get_image_conversion_list (console_type)) { Lisp_Object mapping = XCAR (tail); Lisp_Object exp = XCAR (mapping); Lisp_Object typevec = XCAR (XCDR (mapping)); /* if the result is of a type that can't be instantiated (e.g. a string when we're dealing with a pointer glyph), skip it. */ if (!(dest_mask & IIFORMAT_METH (decode_image_instantiator_format (XVECTOR_DATA (typevec)[0], ERROR_ME), possible_dest_types, ()))) continue; if (fast_string_match (exp, 0, data, 0, -1, 0, ERROR_ME, 0) >= 0) { if (!NILP (XCDR (XCDR (mapping)))) { int pos = XINT (XCAR (XCDR (XCDR (mapping)))); Lisp_Object newvec = Fcopy_sequence (typevec); XVECTOR_DATA (newvec)[pos] = data; return newvec; } else return typevec; } } /* Oh well. */ signal_simple_error ("Unable to interpret glyph instantiator", data); return Qnil; } Lisp_Object find_keyword_in_vector_or_given (Lisp_Object vector, Lisp_Object keyword, Lisp_Object default_) { Lisp_Object *elt; int instantiator_len; elt = XVECTOR_DATA (vector); instantiator_len = XVECTOR_LENGTH (vector); elt++; instantiator_len--; while (instantiator_len > 0) { if (EQ (elt[0], keyword)) return elt[1]; elt += 2; instantiator_len -= 2; } return default_; } Lisp_Object find_keyword_in_vector (Lisp_Object vector, Lisp_Object keyword) { return find_keyword_in_vector_or_given (vector, keyword, Qnil); } void check_valid_string (Lisp_Object data) { CHECK_STRING (data); } void check_valid_vector (Lisp_Object data) { CHECK_VECTOR (data); } void check_valid_face (Lisp_Object data) { Fget_face (data); } void check_valid_int (Lisp_Object data) { CHECK_INT (data); } void file_or_data_must_be_present (Lisp_Object instantiator) { if (NILP (find_keyword_in_vector (instantiator, Q_file)) && NILP (find_keyword_in_vector (instantiator, Q_data))) signal_simple_error ("Must supply either :file or :data", instantiator); } void data_must_be_present (Lisp_Object instantiator) { if (NILP (find_keyword_in_vector (instantiator, Q_data))) signal_simple_error ("Must supply :data", instantiator); } static void face_must_be_present (Lisp_Object instantiator) { if (NILP (find_keyword_in_vector (instantiator, Q_face))) signal_simple_error ("Must supply :face", instantiator); } /* utility function useful in retrieving data from a file. */ Lisp_Object make_string_from_file (Lisp_Object file) { /* This function can call lisp */ int count = specpdl_depth (); Lisp_Object temp_buffer; struct gcpro gcpro1; Lisp_Object data; specbind (Qinhibit_quit, Qt); record_unwind_protect (Fset_buffer, Fcurrent_buffer ()); temp_buffer = Fget_buffer_create (build_string (" *pixmap conversion*")); GCPRO1 (temp_buffer); set_buffer_internal (XBUFFER (temp_buffer)); Ferase_buffer (Qnil); specbind (intern ("format-alist"), Qnil); Finsert_file_contents_internal (file, Qnil, Qnil, Qnil, Qnil, Qnil, Qnil); data = Fbuffer_substring (Qnil, Qnil, Qnil); unbind_to (count, Qnil); UNGCPRO; return data; } /* The following two functions are provided to make it easier for the normalize methods to work with keyword-value vectors. Hash tables are kind of heavyweight for this purpose. (If vectors were resizable, we could avoid this problem; but they're not.) An alternative approach that might be more efficient but require more work is to use a type of assoc-Dynarr and provide primitives for deleting elements out of it. (However, you'd also have to add an unwind-protect to make sure the Dynarr got freed in case of an error in the normalization process.) */ Lisp_Object tagged_vector_to_alist (Lisp_Object vector) { Lisp_Object *elt = XVECTOR_DATA (vector); int len = XVECTOR_LENGTH (vector); Lisp_Object result = Qnil; assert (len & 1); for (len -= 2; len >= 1; len -= 2) result = Fcons (Fcons (elt[len], elt[len+1]), result); return result; } Lisp_Object alist_to_tagged_vector (Lisp_Object tag, Lisp_Object alist) { int len = 1 + 2 * XINT (Flength (alist)); Lisp_Object *elt = alloca_array (Lisp_Object, len); int i; Lisp_Object rest; i = 0; elt[i++] = tag; LIST_LOOP (rest, alist) { Lisp_Object pair = XCAR (rest); elt[i] = XCAR (pair); elt[i+1] = XCDR (pair); i += 2; } return Fvector (len, elt); } static Lisp_Object normalize_image_instantiator (Lisp_Object instantiator, Lisp_Object contype, Lisp_Object dest_mask) { if (IMAGE_INSTANCEP (instantiator)) return instantiator; if (STRINGP (instantiator)) instantiator = process_image_string_instantiator (instantiator, contype, XINT (dest_mask)); assert (VECTORP (instantiator)); /* We have to always store the actual pixmap data and not the filename even though this is a potential memory pig. We have to do this because it is quite possible that we will need to instantiate a new instance of the pixmap and the file will no longer exist (e.g. w3 pixmaps are almost always from temporary files). */ { struct gcpro gcpro1; struct image_instantiator_methods *meths; GCPRO1 (instantiator); meths = decode_image_instantiator_format (XVECTOR_DATA (instantiator)[0], ERROR_ME); RETURN_UNGCPRO (IIFORMAT_METH_OR_GIVEN (meths, normalize, (instantiator, contype), instantiator)); } } static Lisp_Object instantiate_image_instantiator (Lisp_Object device, Lisp_Object domain, Lisp_Object instantiator, Lisp_Object pointer_fg, Lisp_Object pointer_bg, int dest_mask, Lisp_Object glyph) { Lisp_Object ii = allocate_image_instance (device, glyph); Lisp_Image_Instance* p = XIMAGE_INSTANCE (ii); struct image_instantiator_methods *meths; struct gcpro gcpro1; int methp = 0; GCPRO1 (ii); if (!valid_image_instantiator_format_p (XVECTOR_DATA (instantiator)[0], device)) signal_simple_error ("Image instantiator format is invalid in this locale.", instantiator); meths = decode_image_instantiator_format (XVECTOR_DATA (instantiator)[0], ERROR_ME); methp = (int)HAS_IIFORMAT_METH_P (meths, instantiate); MAYBE_IIFORMAT_METH (meths, instantiate, (ii, instantiator, pointer_fg, pointer_bg, dest_mask, domain)); /* now do device specific instantiation */ meths = decode_device_ii_format (device, XVECTOR_DATA (instantiator)[0], ERROR_ME_NOT); if (!methp && (!meths || !HAS_IIFORMAT_METH_P (meths, instantiate))) signal_simple_error ("Don't know how to instantiate this image instantiator?", instantiator); MAYBE_IIFORMAT_METH (meths, instantiate, (ii, instantiator, pointer_fg, pointer_bg, dest_mask, domain)); UNGCPRO; /* Some code may have already laid out the widget, if not then do it here. */ if (IMAGE_INSTANCE_LAYOUT_CHANGED (p)) image_instance_layout (ii, IMAGE_UNSPECIFIED_GEOMETRY, IMAGE_UNSPECIFIED_GEOMETRY, domain); /* We *must* have a clean image at this point. */ IMAGE_INSTANCE_TEXT_CHANGED (p) = 0; IMAGE_INSTANCE_SIZE_CHANGED (p) = 0; IMAGE_INSTANCE_LAYOUT_CHANGED (p) = 0; IMAGE_INSTANCE_DIRTYP (p) = 0; return ii; } /**************************************************************************** * Image-Instance Object * ****************************************************************************/ Lisp_Object Qimage_instancep; static Lisp_Object mark_image_instance (Lisp_Object obj) { Lisp_Image_Instance *i = XIMAGE_INSTANCE (obj); mark_object (i->name); /* We don't mark the glyph reference since that would create a circularity preventing GC. */ switch (IMAGE_INSTANCE_TYPE (i)) { case IMAGE_TEXT: mark_object (IMAGE_INSTANCE_TEXT_STRING (i)); break; case IMAGE_MONO_PIXMAP: case IMAGE_COLOR_PIXMAP: mark_object (IMAGE_INSTANCE_PIXMAP_FILENAME (i)); mark_object (IMAGE_INSTANCE_PIXMAP_MASK_FILENAME (i)); mark_object (IMAGE_INSTANCE_PIXMAP_HOTSPOT_X (i)); mark_object (IMAGE_INSTANCE_PIXMAP_HOTSPOT_Y (i)); mark_object (IMAGE_INSTANCE_PIXMAP_FG (i)); mark_object (IMAGE_INSTANCE_PIXMAP_BG (i)); break; case IMAGE_WIDGET: case IMAGE_LAYOUT: mark_object (IMAGE_INSTANCE_WIDGET_TYPE (i)); mark_object (IMAGE_INSTANCE_WIDGET_PROPS (i)); mark_object (IMAGE_INSTANCE_WIDGET_FACE (i)); mark_object (IMAGE_INSTANCE_WIDGET_ITEMS (i)); mark_object (IMAGE_INSTANCE_WIDGET_PENDING_ITEMS (i)); mark_object (IMAGE_INSTANCE_WIDGET_HEIGHT_SUBR (i)); mark_object (IMAGE_INSTANCE_WIDGET_WIDTH_SUBR (i)); case IMAGE_SUBWINDOW: mark_object (IMAGE_INSTANCE_SUBWINDOW_FRAME (i)); break; default: break; } MAYBE_DEVMETH (XDEVICE (i->device), mark_image_instance, (i)); return i->device; } static void print_image_instance (Lisp_Object obj, Lisp_Object printcharfun, int escapeflag) { char buf[100]; Lisp_Image_Instance *ii = XIMAGE_INSTANCE (obj); if (print_readably) error ("printing unreadable object #<image-instance 0x%x>", ii->header.uid); write_c_string ("#<image-instance (", printcharfun); print_internal (Fimage_instance_type (obj), printcharfun, 0); write_c_string (") ", printcharfun); if (!NILP (ii->name)) { print_internal (ii->name, printcharfun, 1); write_c_string (" ", printcharfun); } write_c_string ("on ", printcharfun); print_internal (ii->device, printcharfun, 0); write_c_string (" ", printcharfun); switch (IMAGE_INSTANCE_TYPE (ii)) { case IMAGE_NOTHING: break; case IMAGE_TEXT: print_internal (IMAGE_INSTANCE_TEXT_STRING (ii), printcharfun, 1); break; case IMAGE_MONO_PIXMAP: case IMAGE_COLOR_PIXMAP: case IMAGE_POINTER: if (STRINGP (IMAGE_INSTANCE_PIXMAP_FILENAME (ii))) { char *s; Lisp_Object filename = IMAGE_INSTANCE_PIXMAP_FILENAME (ii); s = strrchr ((char *) XSTRING_DATA (filename), '/'); if (s) print_internal (build_string (s + 1), printcharfun, 1); else print_internal (filename, printcharfun, 1); } if (IMAGE_INSTANCE_PIXMAP_DEPTH (ii) > 1) sprintf (buf, " %dx%dx%d", IMAGE_INSTANCE_PIXMAP_WIDTH (ii), IMAGE_INSTANCE_PIXMAP_HEIGHT (ii), IMAGE_INSTANCE_PIXMAP_DEPTH (ii)); else sprintf (buf, " %dx%d", IMAGE_INSTANCE_PIXMAP_WIDTH (ii), IMAGE_INSTANCE_PIXMAP_HEIGHT (ii)); write_c_string (buf, printcharfun); if (!NILP (IMAGE_INSTANCE_PIXMAP_HOTSPOT_X (ii)) || !NILP (IMAGE_INSTANCE_PIXMAP_HOTSPOT_Y (ii))) { write_c_string (" @", printcharfun); if (!NILP (IMAGE_INSTANCE_PIXMAP_HOTSPOT_X (ii))) { long_to_string (buf, XINT (IMAGE_INSTANCE_PIXMAP_HOTSPOT_X (ii))); write_c_string (buf, printcharfun); } else write_c_string ("??", printcharfun); write_c_string (",", printcharfun); if (!NILP (IMAGE_INSTANCE_PIXMAP_HOTSPOT_Y (ii))) { long_to_string (buf, XINT (IMAGE_INSTANCE_PIXMAP_HOTSPOT_Y (ii))); write_c_string (buf, printcharfun); } else write_c_string ("??", printcharfun); } if (!NILP (IMAGE_INSTANCE_PIXMAP_FG (ii)) || !NILP (IMAGE_INSTANCE_PIXMAP_BG (ii))) { write_c_string (" (", printcharfun); if (!NILP (IMAGE_INSTANCE_PIXMAP_FG (ii))) { print_internal (XCOLOR_INSTANCE (IMAGE_INSTANCE_PIXMAP_FG (ii))->name, printcharfun, 0); } write_c_string ("/", printcharfun); if (!NILP (IMAGE_INSTANCE_PIXMAP_BG (ii))) { print_internal (XCOLOR_INSTANCE (IMAGE_INSTANCE_PIXMAP_BG (ii))->name, printcharfun, 0); } write_c_string (")", printcharfun); } break; case IMAGE_WIDGET: if (!NILP (IMAGE_INSTANCE_WIDGET_FACE (ii))) { write_c_string (" (", printcharfun); print_internal (IMAGE_INSTANCE_WIDGET_FACE (ii), printcharfun, 0); write_c_string (")", printcharfun); } if (!NILP (IMAGE_INSTANCE_WIDGET_TEXT (ii))) print_internal (IMAGE_INSTANCE_WIDGET_TEXT (ii), printcharfun, 0); case IMAGE_SUBWINDOW: case IMAGE_LAYOUT: sprintf (buf, " %dx%d", IMAGE_INSTANCE_SUBWINDOW_WIDTH (ii), IMAGE_INSTANCE_SUBWINDOW_HEIGHT (ii)); write_c_string (buf, printcharfun); /* This is stolen from frame.c. Subwindows are strange in that they are specific to a particular frame so we want to print in their description what that frame is. */ write_c_string (" on #<", printcharfun); { struct frame* f = XFRAME (IMAGE_INSTANCE_SUBWINDOW_FRAME (ii)); if (!FRAME_LIVE_P (f)) write_c_string ("dead", printcharfun); else write_c_string (DEVICE_TYPE_NAME (XDEVICE (FRAME_DEVICE (f))), printcharfun); write_c_string ("-frame ", printcharfun); } write_c_string (">", printcharfun); sprintf (buf, " 0x%p", IMAGE_INSTANCE_SUBWINDOW_ID (ii)); write_c_string (buf, printcharfun); break; default: abort (); } MAYBE_DEVMETH (XDEVICE (ii->device), print_image_instance, (ii, printcharfun, escapeflag)); sprintf (buf, " 0x%x>", ii->header.uid); write_c_string (buf, printcharfun); } static void finalize_image_instance (void *header, int for_disksave) { Lisp_Image_Instance *i = (Lisp_Image_Instance *) header; if (IMAGE_INSTANCE_TYPE (i) == IMAGE_NOTHING) /* objects like this exist at dump time, so don't bomb out. */ return; if (for_disksave) finalose (i); /* do this so that the cachels get reset */ if (IMAGE_INSTANCE_TYPE (i) == IMAGE_WIDGET || IMAGE_INSTANCE_TYPE (i) == IMAGE_SUBWINDOW || IMAGE_INSTANCE_TYPE (i) == IMAGE_SUBWINDOW) { MARK_FRAME_SUBWINDOWS_CHANGED (XFRAME (IMAGE_INSTANCE_SUBWINDOW_FRAME (i))); } MAYBE_DEVMETH (XDEVICE (i->device), finalize_image_instance, (i)); } static int image_instance_equal (Lisp_Object obj1, Lisp_Object obj2, int depth) { Lisp_Image_Instance *i1 = XIMAGE_INSTANCE (obj1); Lisp_Image_Instance *i2 = XIMAGE_INSTANCE (obj2); struct device *d1 = XDEVICE (i1->device); struct device *d2 = XDEVICE (i2->device); if (d1 != d2) return 0; if (IMAGE_INSTANCE_TYPE (i1) != IMAGE_INSTANCE_TYPE (i2) || IMAGE_INSTANCE_WIDTH (i1) != IMAGE_INSTANCE_WIDTH (i2) || IMAGE_INSTANCE_HEIGHT (i1) != IMAGE_INSTANCE_HEIGHT (i2) || IMAGE_INSTANCE_XOFFSET (i1) != IMAGE_INSTANCE_XOFFSET (i2) || IMAGE_INSTANCE_YOFFSET (i1) != IMAGE_INSTANCE_YOFFSET (i2)) return 0; if (!internal_equal (IMAGE_INSTANCE_NAME (i1), IMAGE_INSTANCE_NAME (i2), depth + 1)) return 0; switch (IMAGE_INSTANCE_TYPE (i1)) { case IMAGE_NOTHING: break; case IMAGE_TEXT: if (!internal_equal (IMAGE_INSTANCE_TEXT_STRING (i1), IMAGE_INSTANCE_TEXT_STRING (i2), depth + 1)) return 0; break; case IMAGE_MONO_PIXMAP: case IMAGE_COLOR_PIXMAP: case IMAGE_POINTER: if (!(IMAGE_INSTANCE_PIXMAP_DEPTH (i1) == IMAGE_INSTANCE_PIXMAP_DEPTH (i2) && IMAGE_INSTANCE_PIXMAP_SLICE (i1) == IMAGE_INSTANCE_PIXMAP_SLICE (i2) && EQ (IMAGE_INSTANCE_PIXMAP_HOTSPOT_X (i1), IMAGE_INSTANCE_PIXMAP_HOTSPOT_X (i2)) && EQ (IMAGE_INSTANCE_PIXMAP_HOTSPOT_Y (i1), IMAGE_INSTANCE_PIXMAP_HOTSPOT_Y (i2)) && internal_equal (IMAGE_INSTANCE_PIXMAP_FILENAME (i1), IMAGE_INSTANCE_PIXMAP_FILENAME (i2), depth + 1) && internal_equal (IMAGE_INSTANCE_PIXMAP_MASK_FILENAME (i1), IMAGE_INSTANCE_PIXMAP_MASK_FILENAME (i2), depth + 1))) return 0; break; case IMAGE_WIDGET: case IMAGE_LAYOUT: if (!(EQ (IMAGE_INSTANCE_WIDGET_TYPE (i1), IMAGE_INSTANCE_WIDGET_TYPE (i2)) && IMAGE_INSTANCE_SUBWINDOW_ID (i1) == IMAGE_INSTANCE_SUBWINDOW_ID (i2) && EQ (IMAGE_INSTANCE_WIDGET_FACE (i1), IMAGE_INSTANCE_WIDGET_TYPE (i2)) && internal_equal (IMAGE_INSTANCE_WIDGET_ITEMS (i1), IMAGE_INSTANCE_WIDGET_ITEMS (i2), depth + 1) && internal_equal (IMAGE_INSTANCE_WIDGET_PROPS (i1), IMAGE_INSTANCE_WIDGET_PROPS (i2), depth + 1) && internal_equal (IMAGE_INSTANCE_WIDGET_WIDTH_SUBR (i1), IMAGE_INSTANCE_WIDGET_WIDTH_SUBR (i2), depth + 1) && internal_equal (IMAGE_INSTANCE_WIDGET_HEIGHT_SUBR (i1), IMAGE_INSTANCE_WIDGET_HEIGHT_SUBR (i2), depth + 1) )) return 0; break; case IMAGE_SUBWINDOW: if (!(IMAGE_INSTANCE_SUBWINDOW_ID (i1) == IMAGE_INSTANCE_SUBWINDOW_ID (i2))) return 0; break; default: abort (); } return DEVMETH_OR_GIVEN (d1, image_instance_equal, (i1, i2, depth), 1); } static unsigned long full_list_hash (Lisp_Object obj, int depth) { unsigned long hash = 0; Lisp_Object rest; if (!CONSP (obj)) return internal_hash (obj, depth + 1); LIST_LOOP (rest, obj) { hash = HASH2 (internal_hash (XCAR (rest), depth + 1), hash); } return hash; } static unsigned long image_instance_hash (Lisp_Object obj, int depth) { Lisp_Image_Instance *i = XIMAGE_INSTANCE (obj); struct device *d = XDEVICE (i->device); unsigned long hash = HASH3 ((unsigned long) d, IMAGE_INSTANCE_WIDTH (i), IMAGE_INSTANCE_HEIGHT (i)); switch (IMAGE_INSTANCE_TYPE (i)) { case IMAGE_NOTHING: break; case IMAGE_TEXT: hash = HASH2 (hash, internal_hash (IMAGE_INSTANCE_TEXT_STRING (i), depth + 1)); break; case IMAGE_MONO_PIXMAP: case IMAGE_COLOR_PIXMAP: case IMAGE_POINTER: hash = HASH4 (hash, IMAGE_INSTANCE_PIXMAP_DEPTH (i), IMAGE_INSTANCE_PIXMAP_SLICE (i), internal_hash (IMAGE_INSTANCE_PIXMAP_FILENAME (i), depth + 1)); break; case IMAGE_WIDGET: case IMAGE_LAYOUT: /* We need the hash to be equivalent to what should be displayed. */ hash = HASH4 (hash, LISP_HASH (IMAGE_INSTANCE_WIDGET_TYPE (i)), full_list_hash (IMAGE_INSTANCE_WIDGET_PROPS (i), depth + 1), full_list_hash (NILP (IMAGE_INSTANCE_WIDGET_PENDING_ITEMS (i)) ? IMAGE_INSTANCE_WIDGET_ITEMS (i) : IMAGE_INSTANCE_WIDGET_PENDING_ITEMS (i), depth + 1)); case IMAGE_SUBWINDOW: hash = HASH2 (hash, (int) IMAGE_INSTANCE_SUBWINDOW_ID (i)); break; default: abort (); } return HASH2 (hash, DEVMETH_OR_GIVEN (d, image_instance_hash, (i, depth), 0)); } DEFINE_LRECORD_IMPLEMENTATION ("image-instance", image_instance, mark_image_instance, print_image_instance, finalize_image_instance, image_instance_equal, image_instance_hash, 0, Lisp_Image_Instance); static Lisp_Object allocate_image_instance (Lisp_Object device, Lisp_Object glyph) { Lisp_Image_Instance *lp = alloc_lcrecord_type (Lisp_Image_Instance, &lrecord_image_instance); Lisp_Object val; zero_lcrecord (lp); lp->device = device; lp->type = IMAGE_NOTHING; lp->name = Qnil; lp->x_offset = 0; lp->y_offset = 0; lp->width = 0; lp->height = 0; lp->parent = glyph; /* So that layouts get done. */ lp->layout_changed = 1; XSETIMAGE_INSTANCE (val, lp); MARK_GLYPHS_CHANGED; return val; } static enum image_instance_type decode_image_instance_type (Lisp_Object type, Error_behavior errb) { if (ERRB_EQ (errb, ERROR_ME)) CHECK_SYMBOL (type); if (EQ (type, Qnothing)) return IMAGE_NOTHING; if (EQ (type, Qtext)) return IMAGE_TEXT; if (EQ (type, Qmono_pixmap)) return IMAGE_MONO_PIXMAP; if (EQ (type, Qcolor_pixmap)) return IMAGE_COLOR_PIXMAP; if (EQ (type, Qpointer)) return IMAGE_POINTER; if (EQ (type, Qsubwindow)) return IMAGE_SUBWINDOW; if (EQ (type, Qwidget)) return IMAGE_WIDGET; if (EQ (type, Qlayout)) return IMAGE_LAYOUT; maybe_signal_simple_error ("Invalid image-instance type", type, Qimage, errb); return IMAGE_UNKNOWN; /* not reached */ } static Lisp_Object encode_image_instance_type (enum image_instance_type type) { switch (type) { case IMAGE_NOTHING: return Qnothing; case IMAGE_TEXT: return Qtext; case IMAGE_MONO_PIXMAP: return Qmono_pixmap; case IMAGE_COLOR_PIXMAP: return Qcolor_pixmap; case IMAGE_POINTER: return Qpointer; case IMAGE_SUBWINDOW: return Qsubwindow; case IMAGE_WIDGET: return Qwidget; case IMAGE_LAYOUT: return Qlayout; default: abort (); } return Qnil; /* not reached */ } static int image_instance_type_to_mask (enum image_instance_type type) { /* This depends on the fact that enums are assigned consecutive integers starting at 0. (Remember that IMAGE_UNKNOWN is the first enum.) I'm fairly sure this behavior is ANSI-mandated, so there should be no portability problems here. */ return (1 << ((int) (type) - 1)); } static int decode_image_instance_type_list (Lisp_Object list) { Lisp_Object rest; int mask = 0; if (NILP (list)) return ~0; if (!CONSP (list)) { enum image_instance_type type = decode_image_instance_type (list, ERROR_ME); return image_instance_type_to_mask (type); } EXTERNAL_LIST_LOOP (rest, list) { enum image_instance_type type = decode_image_instance_type (XCAR (rest), ERROR_ME); mask |= image_instance_type_to_mask (type); } return mask; } static Lisp_Object encode_image_instance_type_list (int mask) { int count = 0; Lisp_Object result = Qnil; while (mask) { count++; if (mask & 1) result = Fcons (encode_image_instance_type ((enum image_instance_type) count), result); mask >>= 1; } return Fnreverse (result); } DOESNT_RETURN incompatible_image_types (Lisp_Object instantiator, int given_dest_mask, int desired_dest_mask) { signal_error (Qerror, list2 (emacs_doprnt_string_lisp_2 ((const Bufbyte *) "No compatible image-instance types given: wanted one of %s, got %s", Qnil, -1, 2, encode_image_instance_type_list (desired_dest_mask), encode_image_instance_type_list (given_dest_mask)), instantiator)); } static int valid_image_instance_type_p (Lisp_Object type) { return !NILP (memq_no_quit (type, Vimage_instance_type_list)); } DEFUN ("valid-image-instance-type-p", Fvalid_image_instance_type_p, 1, 1, 0, /* Given an IMAGE-INSTANCE-TYPE, return non-nil if it is valid. Valid types are some subset of 'nothing, 'text, 'mono-pixmap, 'color-pixmap, 'pointer, and 'subwindow, depending on how XEmacs was compiled. */ (image_instance_type)) { return valid_image_instance_type_p (image_instance_type) ? Qt : Qnil; } DEFUN ("image-instance-type-list", Fimage_instance_type_list, 0, 0, 0, /* Return a list of valid image-instance types. */ ()) { return Fcopy_sequence (Vimage_instance_type_list); } Error_behavior decode_error_behavior_flag (Lisp_Object no_error) { if (NILP (no_error)) return ERROR_ME; else if (EQ (no_error, Qt)) return ERROR_ME_NOT; else return ERROR_ME_WARN; } Lisp_Object encode_error_behavior_flag (Error_behavior errb) { if (ERRB_EQ (errb, ERROR_ME)) return Qnil; else if (ERRB_EQ (errb, ERROR_ME_NOT)) return Qt; else { assert (ERRB_EQ (errb, ERROR_ME_WARN)); return Qwarning; } } /* Recurse up the hierarchy looking for the topmost glyph. This means that instances in layouts will inherit face properties from their parent. */ Lisp_Object image_instance_parent_glyph (Lisp_Image_Instance* ii) { if (IMAGE_INSTANCEP (IMAGE_INSTANCE_PARENT (ii))) { return image_instance_parent_glyph (XIMAGE_INSTANCE (IMAGE_INSTANCE_PARENT (ii))); } return IMAGE_INSTANCE_PARENT (ii); } static Lisp_Object make_image_instance_1 (Lisp_Object data, Lisp_Object device, Lisp_Object dest_types) { Lisp_Object ii; struct gcpro gcpro1; int dest_mask; XSETDEVICE (device, decode_device (device)); /* instantiate_image_instantiator() will abort if given an image instance ... */ if (IMAGE_INSTANCEP (data)) signal_simple_error ("Image instances not allowed here", data); image_validate (data); dest_mask = decode_image_instance_type_list (dest_types); data = normalize_image_instantiator (data, DEVICE_TYPE (XDEVICE (device)), make_int (dest_mask)); GCPRO1 (data); if (VECTORP (data) && EQ (XVECTOR_DATA (data)[0], Qinherit)) signal_simple_error ("Inheritance not allowed here", data); ii = instantiate_image_instantiator (device, device, data, Qnil, Qnil, dest_mask, Qnil); RETURN_UNGCPRO (ii); } DEFUN ("make-image-instance", Fmake_image_instance, 1, 4, 0, /* Return a new `image-instance' object. Image-instance objects encapsulate the way a particular image (pixmap, etc.) is displayed on a particular device. In most circumstances, you do not need to directly create image instances; use a glyph instead. However, it may occasionally be useful to explicitly create image instances, if you want more control over the instantiation process. DATA is an image instantiator, which describes the image; see `image-specifier-p' for a description of the allowed values. DEST-TYPES should be a list of allowed image instance types that can be generated. The recognized image instance types are 'nothing Nothing is displayed. 'text Displayed as text. The foreground and background colors and the font of the text are specified independent of the pixmap. Typically these attributes will come from the face of the surrounding text, unless a face is specified for the glyph in which the image appears. 'mono-pixmap Displayed as a mono pixmap (a pixmap with only two colors where the foreground and background can be specified independent of the pixmap; typically the pixmap assumes the foreground and background colors of the text around it, unless a face is specified for the glyph in which the image appears). 'color-pixmap Displayed as a color pixmap. 'pointer Used as the mouse pointer for a window. 'subwindow A child window that is treated as an image. This allows (e.g.) another program to be responsible for drawing into the window. 'widget A child window that contains a window-system widget, e.g. a push button. The DEST-TYPES list is unordered. If multiple destination types are possible for a given instantiator, the "most natural" type for the instantiator's format is chosen. (For XBM, the most natural types are `mono-pixmap', followed by `color-pixmap', followed by `pointer'. For the other normal image formats, the most natural types are `color-pixmap', followed by `mono-pixmap', followed by `pointer'. For the string and formatted-string formats, the most natural types are `text', followed by `mono-pixmap' (not currently implemented), followed by `color-pixmap' (not currently implemented). The other formats can only be instantiated as one type. (If you want to control more specifically the order of the types into which an image is instantiated, just call `make-image-instance' repeatedly until it succeeds, passing less and less preferred destination types each time. If DEST-TYPES is omitted, all possible types are allowed. NO-ERROR controls what happens when the image cannot be generated. If nil, an error message is generated. If t, no messages are generated and this function returns nil. If anything else, a warning message is generated and this function returns nil. */ (data, device, dest_types, no_error)) { Error_behavior errb = decode_error_behavior_flag (no_error); return call_with_suspended_errors ((lisp_fn_t) make_image_instance_1, Qnil, Qimage, errb, 3, data, device, dest_types); } DEFUN ("image-instance-p", Fimage_instance_p, 1, 1, 0, /* Return non-nil if OBJECT is an image instance. */ (object)) { return IMAGE_INSTANCEP (object) ? Qt : Qnil; } DEFUN ("image-instance-type", Fimage_instance_type, 1, 1, 0, /* Return the type of the given image instance. The return value will be one of 'nothing, 'text, 'mono-pixmap, 'color-pixmap, 'pointer, or 'subwindow. */ (image_instance)) { CHECK_IMAGE_INSTANCE (image_instance); return encode_image_instance_type (XIMAGE_INSTANCE_TYPE (image_instance)); } DEFUN ("image-instance-name", Fimage_instance_name, 1, 1, 0, /* Return the name of the given image instance. */ (image_instance)) { CHECK_IMAGE_INSTANCE (image_instance); return XIMAGE_INSTANCE_NAME (image_instance); } DEFUN ("image-instance-string", Fimage_instance_string, 1, 1, 0, /* Return the string of the given image instance. This will only be non-nil for text image instances and widgets. */ (image_instance)) { CHECK_IMAGE_INSTANCE (image_instance); if (XIMAGE_INSTANCE_TYPE (image_instance) == IMAGE_TEXT) return XIMAGE_INSTANCE_TEXT_STRING (image_instance); else if (XIMAGE_INSTANCE_TYPE (image_instance) == IMAGE_WIDGET) return XIMAGE_INSTANCE_WIDGET_TEXT (image_instance); else return Qnil; } DEFUN ("image-instance-property", Fimage_instance_property, 2, 2, 0, /* Return the given property of the given image instance. Returns nil if the property or the property method do not exist for the image instance in the domain. */ (image_instance, prop)) { Lisp_Image_Instance* ii; Lisp_Object type, ret; struct image_instantiator_methods* meths; CHECK_IMAGE_INSTANCE (image_instance); CHECK_SYMBOL (prop); ii = XIMAGE_INSTANCE (image_instance); /* ... then try device specific methods ... */ type = encode_image_instance_type (IMAGE_INSTANCE_TYPE (ii)); meths = decode_device_ii_format (IMAGE_INSTANCE_DEVICE (ii), type, ERROR_ME_NOT); if (meths && HAS_IIFORMAT_METH_P (meths, property) && !UNBOUNDP (ret = IIFORMAT_METH (meths, property, (image_instance, prop)))) { return ret; } /* ... then format specific methods ... */ meths = decode_device_ii_format (Qnil, type, ERROR_ME_NOT); if (meths && HAS_IIFORMAT_METH_P (meths, property) && !UNBOUNDP (ret = IIFORMAT_METH (meths, property, (image_instance, prop)))) { return ret; } /* ... then fail */ return Qnil; } DEFUN ("set-image-instance-property", Fset_image_instance_property, 3, 3, 0, /* Set the given property of the given image instance. Does nothing if the property or the property method do not exist for the image instance in the domain. */ (image_instance, prop, val)) { Lisp_Image_Instance* ii; Lisp_Object type, ret; struct image_instantiator_methods* meths; CHECK_IMAGE_INSTANCE (image_instance); CHECK_SYMBOL (prop); ii = XIMAGE_INSTANCE (image_instance); type = encode_image_instance_type (IMAGE_INSTANCE_TYPE (ii)); /* try device specific methods first ... */ meths = decode_device_ii_format (IMAGE_INSTANCE_DEVICE (ii), type, ERROR_ME_NOT); if (meths && HAS_IIFORMAT_METH_P (meths, set_property) && !UNBOUNDP (ret = IIFORMAT_METH (meths, set_property, (image_instance, prop, val)))) { val = ret; } else { /* ... then format specific methods ... */ meths = decode_device_ii_format (Qnil, type, ERROR_ME_NOT); if (meths && HAS_IIFORMAT_METH_P (meths, set_property) && !UNBOUNDP (ret = IIFORMAT_METH (meths, set_property, (image_instance, prop, val)))) { val = ret; } else { val = Qnil; } } /* Make sure the image instance gets redisplayed. */ set_image_instance_dirty_p (image_instance, 1); /* Force the glyph to be laid out again. */ IMAGE_INSTANCE_LAYOUT_CHANGED (ii) = 1; MARK_SUBWINDOWS_STATE_CHANGED; MARK_GLYPHS_CHANGED; return val; } DEFUN ("image-instance-file-name", Fimage_instance_file_name, 1, 1, 0, /* Return the file name from which IMAGE-INSTANCE was read, if known. */ (image_instance)) { CHECK_IMAGE_INSTANCE (image_instance); switch (XIMAGE_INSTANCE_TYPE (image_instance)) { case IMAGE_MONO_PIXMAP: case IMAGE_COLOR_PIXMAP: case IMAGE_POINTER: return XIMAGE_INSTANCE_PIXMAP_FILENAME (image_instance); default: return Qnil; } } DEFUN ("image-instance-mask-file-name", Fimage_instance_mask_file_name, 1, 1, 0, /* Return the file name from which IMAGE-INSTANCE's mask was read, if known. */ (image_instance)) { CHECK_IMAGE_INSTANCE (image_instance); switch (XIMAGE_INSTANCE_TYPE (image_instance)) { case IMAGE_MONO_PIXMAP: case IMAGE_COLOR_PIXMAP: case IMAGE_POINTER: return XIMAGE_INSTANCE_PIXMAP_MASK_FILENAME (image_instance); default: return Qnil; } } DEFUN ("image-instance-depth", Fimage_instance_depth, 1, 1, 0, /* Return the depth of the image instance. This is 0 for a bitmap, or a positive integer for a pixmap. */ (image_instance)) { CHECK_IMAGE_INSTANCE (image_instance); switch (XIMAGE_INSTANCE_TYPE (image_instance)) { case IMAGE_MONO_PIXMAP: case IMAGE_COLOR_PIXMAP: case IMAGE_POINTER: return make_int (XIMAGE_INSTANCE_PIXMAP_DEPTH (image_instance)); default: return Qnil; } } DEFUN ("image-instance-height", Fimage_instance_height, 1, 1, 0, /* Return the height of the image instance, in pixels. */ (image_instance)) { CHECK_IMAGE_INSTANCE (image_instance); switch (XIMAGE_INSTANCE_TYPE (image_instance)) { case IMAGE_MONO_PIXMAP: case IMAGE_COLOR_PIXMAP: case IMAGE_POINTER: case IMAGE_SUBWINDOW: case IMAGE_WIDGET: case IMAGE_LAYOUT: return make_int (XIMAGE_INSTANCE_HEIGHT (image_instance)); default: return Qnil; } } DEFUN ("image-instance-width", Fimage_instance_width, 1, 1, 0, /* Return the width of the image instance, in pixels. */ (image_instance)) { CHECK_IMAGE_INSTANCE (image_instance); switch (XIMAGE_INSTANCE_TYPE (image_instance)) { case IMAGE_MONO_PIXMAP: case IMAGE_COLOR_PIXMAP: case IMAGE_POINTER: case IMAGE_SUBWINDOW: case IMAGE_WIDGET: case IMAGE_LAYOUT: return make_int (XIMAGE_INSTANCE_WIDTH (image_instance)); default: return Qnil; } } DEFUN ("image-instance-hotspot-x", Fimage_instance_hotspot_x, 1, 1, 0, /* Return the X coordinate of the image instance's hotspot, if known. This is a point relative to the origin of the pixmap. When an image is used as a mouse pointer, the hotspot is the point on the image that sits over the location that the pointer points to. This is, for example, the tip of the arrow or the center of the crosshairs. This will always be nil for a non-pointer image instance. */ (image_instance)) { CHECK_IMAGE_INSTANCE (image_instance); switch (XIMAGE_INSTANCE_TYPE (image_instance)) { case IMAGE_MONO_PIXMAP: case IMAGE_COLOR_PIXMAP: case IMAGE_POINTER: return XIMAGE_INSTANCE_PIXMAP_HOTSPOT_X (image_instance); default: return Qnil; } } DEFUN ("image-instance-hotspot-y", Fimage_instance_hotspot_y, 1, 1, 0, /* Return the Y coordinate of the image instance's hotspot, if known. This is a point relative to the origin of the pixmap. When an image is used as a mouse pointer, the hotspot is the point on the image that sits over the location that the pointer points to. This is, for example, the tip of the arrow or the center of the crosshairs. This will always be nil for a non-pointer image instance. */ (image_instance)) { CHECK_IMAGE_INSTANCE (image_instance); switch (XIMAGE_INSTANCE_TYPE (image_instance)) { case IMAGE_MONO_PIXMAP: case IMAGE_COLOR_PIXMAP: case IMAGE_POINTER: return XIMAGE_INSTANCE_PIXMAP_HOTSPOT_Y (image_instance); default: return Qnil; } } DEFUN ("image-instance-foreground", Fimage_instance_foreground, 1, 1, 0, /* Return the foreground color of IMAGE-INSTANCE, if applicable. This will be a color instance or nil. (It will only be non-nil for colorized mono pixmaps and for pointers.) */ (image_instance)) { CHECK_IMAGE_INSTANCE (image_instance); switch (XIMAGE_INSTANCE_TYPE (image_instance)) { case IMAGE_MONO_PIXMAP: case IMAGE_COLOR_PIXMAP: case IMAGE_POINTER: return XIMAGE_INSTANCE_PIXMAP_FG (image_instance); case IMAGE_WIDGET: return FACE_FOREGROUND ( XIMAGE_INSTANCE_WIDGET_FACE (image_instance), XIMAGE_INSTANCE_SUBWINDOW_FRAME (image_instance)); default: return Qnil; } } DEFUN ("image-instance-background", Fimage_instance_background, 1, 1, 0, /* Return the background color of IMAGE-INSTANCE, if applicable. This will be a color instance or nil. (It will only be non-nil for colorized mono pixmaps and for pointers.) */ (image_instance)) { CHECK_IMAGE_INSTANCE (image_instance); switch (XIMAGE_INSTANCE_TYPE (image_instance)) { case IMAGE_MONO_PIXMAP: case IMAGE_COLOR_PIXMAP: case IMAGE_POINTER: return XIMAGE_INSTANCE_PIXMAP_BG (image_instance); case IMAGE_WIDGET: return FACE_BACKGROUND ( XIMAGE_INSTANCE_WIDGET_FACE (image_instance), XIMAGE_INSTANCE_SUBWINDOW_FRAME (image_instance)); default: return Qnil; } } DEFUN ("colorize-image-instance", Fcolorize_image_instance, 3, 3, 0, /* Make the image instance be displayed in the given colors. This function returns a new image instance that is exactly like the specified one except that (if possible) the foreground and background colors and as specified. Currently, this only does anything if the image instance is a mono pixmap; otherwise, the same image instance is returned. */ (image_instance, foreground, background)) { Lisp_Object new; Lisp_Object device; CHECK_IMAGE_INSTANCE (image_instance); CHECK_COLOR_INSTANCE (foreground); CHECK_COLOR_INSTANCE (background); device = XIMAGE_INSTANCE_DEVICE (image_instance); if (!HAS_DEVMETH_P (XDEVICE (device), colorize_image_instance)) return image_instance; /* #### There should be a copy_image_instance(), which calls a device-specific method to copy the window-system subobject. */ new = allocate_image_instance (device, Qnil); copy_lcrecord (XIMAGE_INSTANCE (new), XIMAGE_INSTANCE (image_instance)); /* note that if this method returns non-zero, this method MUST copy any window-system resources, so that when one image instance is freed, the other one is not hosed. */ if (!DEVMETH (XDEVICE (device), colorize_image_instance, (new, foreground, background))) return image_instance; return new; } /************************************************************************/ /* Geometry calculations */ /************************************************************************/ /* Find out desired geometry of the image instance. If there is no special function then just return the width and / or height. */ void image_instance_query_geometry (Lisp_Object image_instance, unsigned int* width, unsigned int* height, enum image_instance_geometry disp, Lisp_Object domain) { Lisp_Image_Instance* ii = XIMAGE_INSTANCE (image_instance); Lisp_Object type; struct image_instantiator_methods* meths; type = encode_image_instance_type (IMAGE_INSTANCE_TYPE (ii)); meths = decode_device_ii_format (Qnil, type, ERROR_ME_NOT); if (meths && HAS_IIFORMAT_METH_P (meths, query_geometry)) { IIFORMAT_METH (meths, query_geometry, (image_instance, width, height, disp, domain)); } else { if (width) *width = IMAGE_INSTANCE_WIDTH (ii); if (height) *height = IMAGE_INSTANCE_HEIGHT (ii); } } /* Layout the image instance using the provided dimensions. Layout widgets are going to do different kinds of calculations to determine what size to give things so we could make the layout function relatively simple to take account of that. An alternative approach is to consider separately the two cases, one where you don't mind what size you have (normal widgets) and one where you want to specifiy something (layout widgets). */ void image_instance_layout (Lisp_Object image_instance, unsigned int width, unsigned int height, Lisp_Object domain) { Lisp_Image_Instance* ii = XIMAGE_INSTANCE (image_instance); Lisp_Object type; struct image_instantiator_methods* meths; type = encode_image_instance_type (IMAGE_INSTANCE_TYPE (ii)); meths = decode_device_ii_format (Qnil, type, ERROR_ME_NOT); /* If geometry is unspecified then get some reasonable values for it. */ if (width == IMAGE_UNSPECIFIED_GEOMETRY || height == IMAGE_UNSPECIFIED_GEOMETRY) { unsigned int dwidth, dheight; /* Get the desired geometry. */ if (meths && HAS_IIFORMAT_METH_P (meths, query_geometry)) { IIFORMAT_METH (meths, query_geometry, (image_instance, &dwidth, &dheight, IMAGE_DESIRED_GEOMETRY, domain)); } else { dwidth = IMAGE_INSTANCE_WIDTH (ii); dheight = IMAGE_INSTANCE_HEIGHT (ii); } /* Compare with allowed geometry. */ if (width == IMAGE_UNSPECIFIED_GEOMETRY) width = dwidth; if (height == IMAGE_UNSPECIFIED_GEOMETRY) height = dheight; } /* At this point width and height should contain sane values. Thus we set the glyph geometry and lay it out. */ if (IMAGE_INSTANCE_WIDTH (ii) != width || IMAGE_INSTANCE_HEIGHT (ii) != height) { IMAGE_INSTANCE_SIZE_CHANGED (ii) = 1; } IMAGE_INSTANCE_WIDTH (ii) = width; IMAGE_INSTANCE_HEIGHT (ii) = height; if (meths && HAS_IIFORMAT_METH_P (meths, layout)) { IIFORMAT_METH (meths, layout, (image_instance, width, height, domain)); } /* else no change to the geometry. */ /* Do not clear the dirty flag here - redisplay will do this for us at the end. */ IMAGE_INSTANCE_LAYOUT_CHANGED (ii) = 0; } /* * Mark image instance in W as dirty if (a) W's faces have changed and * (b) GLYPH_OR_II instance in W is a string. * * Return non-zero if instance has been marked dirty. */ int invalidate_glyph_geometry_maybe (Lisp_Object glyph_or_ii, struct window* w) { if (XFRAME(WINDOW_FRAME(w))->faces_changed) { Lisp_Object image = glyph_or_ii; if (GLYPHP (glyph_or_ii)) { Lisp_Object window; XSETWINDOW (window, w); image = glyph_image_instance (glyph_or_ii, window, ERROR_ME_NOT, 1); } if (TEXT_IMAGE_INSTANCEP (image)) { Lisp_Image_Instance* ii = XIMAGE_INSTANCE (image); IMAGE_INSTANCE_DIRTYP (ii) = 1; IMAGE_INSTANCE_LAYOUT_CHANGED (ii) = 1; if (GLYPHP (glyph_or_ii)) XGLYPH_DIRTYP (glyph_or_ii) = 1; return 1; } } return 0; } /************************************************************************/ /* error helpers */ /************************************************************************/ DOESNT_RETURN signal_image_error (const char *reason, Lisp_Object frob) { signal_error (Qimage_conversion_error, list2 (build_translated_string (reason), frob)); } DOESNT_RETURN signal_image_error_2 (const char *reason, Lisp_Object frob0, Lisp_Object frob1) { signal_error (Qimage_conversion_error, list3 (build_translated_string (reason), frob0, frob1)); } /**************************************************************************** * nothing * ****************************************************************************/ static int nothing_possible_dest_types (void) { return IMAGE_NOTHING_MASK; } static void nothing_instantiate (Lisp_Object image_instance, Lisp_Object instantiator, Lisp_Object pointer_fg, Lisp_Object pointer_bg, int dest_mask, Lisp_Object domain) { Lisp_Image_Instance *ii = XIMAGE_INSTANCE (image_instance); if (dest_mask & IMAGE_NOTHING_MASK) IMAGE_INSTANCE_TYPE (ii) = IMAGE_NOTHING; else incompatible_image_types (instantiator, dest_mask, IMAGE_NOTHING_MASK); } /**************************************************************************** * inherit * ****************************************************************************/ static void inherit_validate (Lisp_Object instantiator) { face_must_be_present (instantiator); } static Lisp_Object inherit_normalize (Lisp_Object inst, Lisp_Object console_type) { Lisp_Object face; assert (XVECTOR_LENGTH (inst) == 3); face = XVECTOR_DATA (inst)[2]; if (!FACEP (face)) inst = vector3 (Qinherit, Q_face, Fget_face (face)); return inst; } static int inherit_possible_dest_types (void) { return IMAGE_MONO_PIXMAP_MASK; } static void inherit_instantiate (Lisp_Object image_instance, Lisp_Object instantiator, Lisp_Object pointer_fg, Lisp_Object pointer_bg, int dest_mask, Lisp_Object domain) { /* handled specially in image_instantiate */ abort (); } /**************************************************************************** * string * ****************************************************************************/ static void string_validate (Lisp_Object instantiator) { data_must_be_present (instantiator); } static int string_possible_dest_types (void) { return IMAGE_TEXT_MASK; } /* Called from autodetect_instantiate() */ void string_instantiate (Lisp_Object image_instance, Lisp_Object instantiator, Lisp_Object pointer_fg, Lisp_Object pointer_bg, int dest_mask, Lisp_Object domain) { Lisp_Object string = find_keyword_in_vector (instantiator, Q_data); Lisp_Image_Instance *ii = XIMAGE_INSTANCE (image_instance); /* Should never get here with a domain other than a window. */ assert (!NILP (string) && WINDOWP (domain)); if (dest_mask & IMAGE_TEXT_MASK) { IMAGE_INSTANCE_TYPE (ii) = IMAGE_TEXT; IMAGE_INSTANCE_TEXT_STRING (ii) = string; } else incompatible_image_types (instantiator, dest_mask, IMAGE_TEXT_MASK); } /* Sort out the size of the text that is being displayed. Calculating it dynamically allows us to change the text and still see everything. Note that the following methods are for text not string since that is what the instantiated type is. The first method is a helper that is used elsewhere for calculating text geometry. */ void query_string_geometry (Lisp_Object string, Lisp_Object face, unsigned int* width, unsigned int* height, unsigned int* descent, Lisp_Object domain) { struct font_metric_info fm; unsigned char charsets[NUM_LEADING_BYTES]; struct face_cachel frame_cachel; struct face_cachel *cachel; Lisp_Object frame = FW_FRAME (domain); /* Compute height */ if (height) { /* Compute string metric info */ find_charsets_in_bufbyte_string (charsets, XSTRING_DATA (string), XSTRING_LENGTH (string)); /* Fallback to the default face if none was provided. */ if (!NILP (face)) { reset_face_cachel (&frame_cachel); update_face_cachel_data (&frame_cachel, frame, face); cachel = &frame_cachel; } else { cachel = WINDOW_FACE_CACHEL (XWINDOW (domain), DEFAULT_INDEX); } ensure_face_cachel_complete (cachel, domain, charsets); face_cachel_charset_font_metric_info (cachel, charsets, &fm); *height = fm.ascent + fm.descent; /* #### descent only gets set if we query the height as well. */ if (descent) *descent = fm.descent; } /* Compute width */ if (width) { if (!NILP (face)) *width = redisplay_frame_text_width_string (XFRAME (frame), face, 0, string, 0, -1); else *width = redisplay_frame_text_width_string (XFRAME (frame), Vdefault_face, 0, string, 0, -1); } } Lisp_Object query_string_font (Lisp_Object string, Lisp_Object face, Lisp_Object domain) { unsigned char charsets[NUM_LEADING_BYTES]; struct face_cachel frame_cachel; struct face_cachel *cachel; int i; Lisp_Object frame = FW_FRAME (domain); /* Compute string font info */ find_charsets_in_bufbyte_string (charsets, XSTRING_DATA (string), XSTRING_LENGTH (string)); reset_face_cachel (&frame_cachel); update_face_cachel_data (&frame_cachel, frame, face); cachel = &frame_cachel; ensure_face_cachel_complete (cachel, domain, charsets); for (i = 0; i < NUM_LEADING_BYTES; i++) { if (charsets[i]) { return FACE_CACHEL_FONT (cachel, CHARSET_BY_LEADING_BYTE (i + MIN_LEADING_BYTE)); } } return Qnil; /* NOT REACHED */ } static void text_query_geometry (Lisp_Object image_instance, unsigned int* width, unsigned int* height, enum image_instance_geometry disp, Lisp_Object domain) { Lisp_Image_Instance *ii = XIMAGE_INSTANCE (image_instance); unsigned int descent = 0; query_string_geometry (IMAGE_INSTANCE_TEXT_STRING (ii), IMAGE_INSTANCE_FACE (ii), width, height, &descent, domain); /* The descent gets set as a side effect of querying the geometry. */ IMAGE_INSTANCE_TEXT_DESCENT (ii) = descent; } /* set the properties of a string */ static Lisp_Object text_set_property (Lisp_Object image_instance, Lisp_Object prop, Lisp_Object val) { Lisp_Image_Instance *ii = XIMAGE_INSTANCE (image_instance); if (EQ (prop, Q_data)) { CHECK_STRING (val); IMAGE_INSTANCE_TEXT_STRING (ii) = val; return Qt; } return Qunbound; } /**************************************************************************** * formatted-string * ****************************************************************************/ static void formatted_string_validate (Lisp_Object instantiator) { data_must_be_present (instantiator); } static int formatted_string_possible_dest_types (void) { return IMAGE_TEXT_MASK; } static void formatted_string_instantiate (Lisp_Object image_instance, Lisp_Object instantiator, Lisp_Object pointer_fg, Lisp_Object pointer_bg, int dest_mask, Lisp_Object domain) { /* #### implement this */ warn_when_safe (Qunimplemented, Qnotice, "`formatted-string' not yet implemented; assuming `string'"); string_instantiate (image_instance, instantiator, pointer_fg, pointer_bg, dest_mask, domain); } /************************************************************************/ /* pixmap file functions */ /************************************************************************/ /* If INSTANTIATOR refers to inline data, return Qnil. If INSTANTIATOR refers to data in a file, return the full filename if it exists; otherwise, return a cons of (filename). FILE_KEYWORD and DATA_KEYWORD are symbols specifying the keywords used to look up the file and inline data, respectively, in the instantiator. Normally these would be Q_file and Q_data, but might be different for mask data. */ Lisp_Object potential_pixmap_file_instantiator (Lisp_Object instantiator, Lisp_Object file_keyword, Lisp_Object data_keyword, Lisp_Object console_type) { Lisp_Object file; Lisp_Object data; assert (VECTORP (instantiator)); data = find_keyword_in_vector (instantiator, data_keyword); file = find_keyword_in_vector (instantiator, file_keyword); if (!NILP (file) && NILP (data)) { Lisp_Object retval = MAYBE_LISP_CONTYPE_METH (decode_console_type(console_type, ERROR_ME), locate_pixmap_file, (file)); if (!NILP (retval)) return retval; else return Fcons (file, Qnil); /* should have been file */ } return Qnil; } Lisp_Object simple_image_type_normalize (Lisp_Object inst, Lisp_Object console_type, Lisp_Object image_type_tag) { /* This function can call lisp */ Lisp_Object file = Qnil; struct gcpro gcpro1, gcpro2; Lisp_Object alist = Qnil; GCPRO2 (file, alist); /* Now, convert any file data into inline data. At the end of this, `data' will contain the inline data (if any) or Qnil, and `file' will contain the name this data was derived from (if known) or Qnil. Note that if we cannot generate any regular inline data, we skip out. */ file = potential_pixmap_file_instantiator (inst, Q_file, Q_data, console_type); if (CONSP (file)) /* failure locating filename */ signal_double_file_error ("Opening pixmap file", "no such file or directory", Fcar (file)); if (NILP (file)) /* no conversion necessary */ RETURN_UNGCPRO (inst); alist = tagged_vector_to_alist (inst); { Lisp_Object data = make_string_from_file (file); alist = remassq_no_quit (Q_file, alist); /* there can't be a :data at this point. */ alist = Fcons (Fcons (Q_file, file), Fcons (Fcons (Q_data, data), alist)); } { Lisp_Object result = alist_to_tagged_vector (image_type_tag, alist); free_alist (alist); RETURN_UNGCPRO (result); } } #ifdef HAVE_WINDOW_SYSTEM /********************************************************************** * XBM * **********************************************************************/ /* Check if DATA represents a valid inline XBM spec (i.e. a list of (width height bits), with checking done on the dimensions). If not, signal an error. */ static void check_valid_xbm_inline (Lisp_Object data) { Lisp_Object width, height, bits; if (!CONSP (data) || !CONSP (XCDR (data)) || !CONSP (XCDR (XCDR (data))) || !NILP (XCDR (XCDR (XCDR (data))))) signal_simple_error ("Must be list of 3 elements", data); width = XCAR (data); height = XCAR (XCDR (data)); bits = XCAR (XCDR (XCDR (data))); CHECK_STRING (bits); if (!NATNUMP (width)) signal_simple_error ("Width must be a natural number", width); if (!NATNUMP (height)) signal_simple_error ("Height must be a natural number", height); if (((XINT (width) * XINT (height)) / 8) > XSTRING_CHAR_LENGTH (bits)) signal_simple_error ("data is too short for width and height", vector3 (width, height, bits)); } /* Validate method for XBM's. */ static void xbm_validate (Lisp_Object instantiator) { file_or_data_must_be_present (instantiator); } /* Given a filename that is supposed to contain XBM data, return the inline representation of it as (width height bits). Return the hotspot through XHOT and YHOT, if those pointers are not 0. If there is no hotspot, XHOT and YHOT will contain -1. If the function fails: -- if OK_IF_DATA_INVALID is set and the data was invalid, return Qt. -- maybe return an error, or return Qnil. */ #ifdef HAVE_X_WINDOWS #include <X11/Xlib.h> #else #define XFree(data) free(data) #endif Lisp_Object bitmap_to_lisp_data (Lisp_Object name, int *xhot, int *yhot, int ok_if_data_invalid) { unsigned int w, h; Extbyte *data; int result; const char *filename_ext; TO_EXTERNAL_FORMAT (LISP_STRING, name, C_STRING_ALLOCA, filename_ext, Qfile_name); result = read_bitmap_data_from_file (filename_ext, &w, &h, &data, xhot, yhot); if (result == BitmapSuccess) { Lisp_Object retval; int len = (w + 7) / 8 * h; retval = list3 (make_int (w), make_int (h), make_ext_string (data, len, Qbinary)); XFree ((char *) data); return retval; } switch (result) { case BitmapOpenFailed: { /* should never happen */ signal_double_file_error ("Opening bitmap file", "no such file or directory", name); } case BitmapFileInvalid: { if (ok_if_data_invalid) return Qt; signal_double_file_error ("Reading bitmap file", "invalid data in file", name); } case BitmapNoMemory: { signal_double_file_error ("Reading bitmap file", "out of memory", name); } default: { signal_double_file_error_2 ("Reading bitmap file", "unknown error code", make_int (result), name); } } return Qnil; /* not reached */ } Lisp_Object xbm_mask_file_munging (Lisp_Object alist, Lisp_Object file, Lisp_Object mask_file, Lisp_Object console_type) { /* This is unclean but it's fairly standard -- a number of the bitmaps in /usr/include/X11/bitmaps use it -- so we support it. */ if (NILP (mask_file) /* don't override explicitly specified mask data. */ && NILP (assq_no_quit (Q_mask_data, alist)) && !NILP (file)) { mask_file = MAYBE_LISP_CONTYPE_METH (decode_console_type(console_type, ERROR_ME), locate_pixmap_file, (concat2 (file, build_string ("Mask")))); if (NILP (mask_file)) mask_file = MAYBE_LISP_CONTYPE_METH (decode_console_type(console_type, ERROR_ME), locate_pixmap_file, (concat2 (file, build_string ("msk")))); } if (!NILP (mask_file)) { Lisp_Object mask_data = bitmap_to_lisp_data (mask_file, 0, 0, 0); alist = remassq_no_quit (Q_mask_file, alist); /* there can't be a :mask-data at this point. */ alist = Fcons (Fcons (Q_mask_file, mask_file), Fcons (Fcons (Q_mask_data, mask_data), alist)); } return alist; } /* Normalize method for XBM's. */ static Lisp_Object xbm_normalize (Lisp_Object inst, Lisp_Object console_type) { Lisp_Object file = Qnil, mask_file = Qnil; struct gcpro gcpro1, gcpro2, gcpro3; Lisp_Object alist = Qnil; GCPRO3 (file, mask_file, alist); /* Now, convert any file data into inline data for both the regular data and the mask data. At the end of this, `data' will contain the inline data (if any) or Qnil, and `file' will contain the name this data was derived from (if known) or Qnil. Likewise for `mask_file' and `mask_data'. Note that if we cannot generate any regular inline data, we skip out. */ file = potential_pixmap_file_instantiator (inst, Q_file, Q_data, console_type); mask_file = potential_pixmap_file_instantiator (inst, Q_mask_file, Q_mask_data, console_type); if (CONSP (file)) /* failure locating filename */ signal_double_file_error ("Opening bitmap file", "no such file or directory", Fcar (file)); if (NILP (file) && NILP (mask_file)) /* no conversion necessary */ RETURN_UNGCPRO (inst); alist = tagged_vector_to_alist (inst); if (!NILP (file)) { int xhot, yhot; Lisp_Object data = bitmap_to_lisp_data (file, &xhot, &yhot, 0); alist = remassq_no_quit (Q_file, alist); /* there can't be a :data at this point. */ alist = Fcons (Fcons (Q_file, file), Fcons (Fcons (Q_data, data), alist)); if (xhot != -1 && NILP (assq_no_quit (Q_hotspot_x, alist))) alist = Fcons (Fcons (Q_hotspot_x, make_int (xhot)), alist); if (yhot != -1 && NILP (assq_no_quit (Q_hotspot_y, alist))) alist = Fcons (Fcons (Q_hotspot_y, make_int (yhot)), alist); } alist = xbm_mask_file_munging (alist, file, mask_file, console_type); { Lisp_Object result = alist_to_tagged_vector (Qxbm, alist); free_alist (alist); RETURN_UNGCPRO (result); } } static int xbm_possible_dest_types (void) { return IMAGE_MONO_PIXMAP_MASK | IMAGE_COLOR_PIXMAP_MASK | IMAGE_POINTER_MASK; } #endif #ifdef HAVE_XFACE /********************************************************************** * X-Face * **********************************************************************/ static void xface_validate (Lisp_Object instantiator) { file_or_data_must_be_present (instantiator); } static Lisp_Object xface_normalize (Lisp_Object inst, Lisp_Object console_type) { /* This function can call lisp */ Lisp_Object file = Qnil, mask_file = Qnil; struct gcpro gcpro1, gcpro2, gcpro3; Lisp_Object alist = Qnil; GCPRO3 (file, mask_file, alist); /* Now, convert any file data into inline data for both the regular data and the mask data. At the end of this, `data' will contain the inline data (if any) or Qnil, and `file' will contain the name this data was derived from (if known) or Qnil. Likewise for `mask_file' and `mask_data'. Note that if we cannot generate any regular inline data, we skip out. */ file = potential_pixmap_file_instantiator (inst, Q_file, Q_data, console_type); mask_file = potential_pixmap_file_instantiator (inst, Q_mask_file, Q_mask_data, console_type); if (CONSP (file)) /* failure locating filename */ signal_double_file_error ("Opening bitmap file", "no such file or directory", Fcar (file)); if (NILP (file) && NILP (mask_file)) /* no conversion necessary */ RETURN_UNGCPRO (inst); alist = tagged_vector_to_alist (inst); { Lisp_Object data = make_string_from_file (file); alist = remassq_no_quit (Q_file, alist); /* there can't be a :data at this point. */ alist = Fcons (Fcons (Q_file, file), Fcons (Fcons (Q_data, data), alist)); } alist = xbm_mask_file_munging (alist, file, mask_file, console_type); { Lisp_Object result = alist_to_tagged_vector (Qxface, alist); free_alist (alist); RETURN_UNGCPRO (result); } } static int xface_possible_dest_types (void) { return IMAGE_MONO_PIXMAP_MASK | IMAGE_COLOR_PIXMAP_MASK | IMAGE_POINTER_MASK; } #endif /* HAVE_XFACE */ #ifdef HAVE_XPM /********************************************************************** * XPM * **********************************************************************/ Lisp_Object pixmap_to_lisp_data (Lisp_Object name, int ok_if_data_invalid) { char **data; int result; char *fname = 0; TO_EXTERNAL_FORMAT (LISP_STRING, name, C_STRING_ALLOCA, fname, Qfile_name); result = XpmReadFileToData (fname, &data); if (result == XpmSuccess) { Lisp_Object retval = Qnil; struct buffer *old_buffer = current_buffer; Lisp_Object temp_buffer = Fget_buffer_create (build_string (" *pixmap conversion*")); int elt; int height, width, ncolors; struct gcpro gcpro1, gcpro2, gcpro3; int speccount = specpdl_depth (); GCPRO3 (name, retval, temp_buffer); specbind (Qinhibit_quit, Qt); set_buffer_internal (XBUFFER (temp_buffer)); Ferase_buffer (Qnil); buffer_insert_c_string (current_buffer, "/* XPM */\r"); buffer_insert_c_string (current_buffer, "static char *pixmap[] = {\r"); sscanf (data[0], "%d %d %d", &height, &width, &ncolors); for (elt = 0; elt <= width + ncolors; elt++) { buffer_insert_c_string (current_buffer, "\""); buffer_insert_c_string (current_buffer, data[elt]); if (elt < width + ncolors) buffer_insert_c_string (current_buffer, "\",\r"); else buffer_insert_c_string (current_buffer, "\"};\r"); } retval = Fbuffer_substring (Qnil, Qnil, Qnil); XpmFree (data); set_buffer_internal (old_buffer); unbind_to (speccount, Qnil); RETURN_UNGCPRO (retval); } switch (result) { case XpmFileInvalid: { if (ok_if_data_invalid) return Qt; signal_image_error ("invalid XPM data in file", name); } case XpmNoMemory: { signal_double_file_error ("Reading pixmap file", "out of memory", name); } case XpmOpenFailed: { /* should never happen? */ signal_double_file_error ("Opening pixmap file", "no such file or directory", name); } default: { signal_double_file_error_2 ("Parsing pixmap file", "unknown error code", make_int (result), name); break; } } return Qnil; /* not reached */ } static void check_valid_xpm_color_symbols (Lisp_Object data) { Lisp_Object rest; for (rest = data; !NILP (rest); rest = XCDR (rest)) { if (!CONSP (rest) || !CONSP (XCAR (rest)) || !STRINGP (XCAR (XCAR (rest))) || (!STRINGP (XCDR (XCAR (rest))) && !COLOR_SPECIFIERP (XCDR (XCAR (rest))))) signal_simple_error ("Invalid color symbol alist", data); } } static void xpm_validate (Lisp_Object instantiator) { file_or_data_must_be_present (instantiator); } Lisp_Object Vxpm_color_symbols; Lisp_Object evaluate_xpm_color_symbols (void) { Lisp_Object rest, results = Qnil; struct gcpro gcpro1, gcpro2; GCPRO2 (rest, results); for (rest = Vxpm_color_symbols; !NILP (rest); rest = XCDR (rest)) { Lisp_Object name, value, cons; CHECK_CONS (rest); cons = XCAR (rest); CHECK_CONS (cons); name = XCAR (cons); CHECK_STRING (name); value = XCDR (cons); CHECK_CONS (value); value = XCAR (value); value = Feval (value); if (NILP (value)) continue; if (!STRINGP (value) && !COLOR_SPECIFIERP (value)) signal_simple_error ("Result from xpm-color-symbols eval must be nil, string, or color", value); results = Fcons (Fcons (name, value), results); } UNGCPRO; /* no more evaluation */ return results; } static Lisp_Object xpm_normalize (Lisp_Object inst, Lisp_Object console_type) { Lisp_Object file = Qnil; Lisp_Object color_symbols; struct gcpro gcpro1, gcpro2; Lisp_Object alist = Qnil; GCPRO2 (file, alist); /* Now, convert any file data into inline data. At the end of this, `data' will contain the inline data (if any) or Qnil, and `file' will contain the name this data was derived from (if known) or Qnil. Note that if we cannot generate any regular inline data, we skip out. */ file = potential_pixmap_file_instantiator (inst, Q_file, Q_data, console_type); if (CONSP (file)) /* failure locating filename */ signal_double_file_error ("Opening pixmap file", "no such file or directory", Fcar (file)); color_symbols = find_keyword_in_vector_or_given (inst, Q_color_symbols, Qunbound); if (NILP (file) && !UNBOUNDP (color_symbols)) /* no conversion necessary */ RETURN_UNGCPRO (inst); alist = tagged_vector_to_alist (inst); if (!NILP (file)) { Lisp_Object data = pixmap_to_lisp_data (file, 0); alist = remassq_no_quit (Q_file, alist); /* there can't be a :data at this point. */ alist = Fcons (Fcons (Q_file, file), Fcons (Fcons (Q_data, data), alist)); } if (UNBOUNDP (color_symbols)) { color_symbols = evaluate_xpm_color_symbols (); alist = Fcons (Fcons (Q_color_symbols, color_symbols), alist); } { Lisp_Object result = alist_to_tagged_vector (Qxpm, alist); free_alist (alist); RETURN_UNGCPRO (result); } } static int xpm_possible_dest_types (void) { return IMAGE_MONO_PIXMAP_MASK | IMAGE_COLOR_PIXMAP_MASK | IMAGE_POINTER_MASK; } #endif /* HAVE_XPM */ /**************************************************************************** * Image Specifier Object * ****************************************************************************/ DEFINE_SPECIFIER_TYPE (image); static void image_create (Lisp_Object obj) { Lisp_Specifier *image = XIMAGE_SPECIFIER (obj); IMAGE_SPECIFIER_ALLOWED (image) = ~0; /* all are allowed */ IMAGE_SPECIFIER_ATTACHEE (image) = Qnil; IMAGE_SPECIFIER_ATTACHEE_PROPERTY (image) = Qnil; } static void image_mark (Lisp_Object obj) { Lisp_Specifier *image = XIMAGE_SPECIFIER (obj); mark_object (IMAGE_SPECIFIER_ATTACHEE (image)); mark_object (IMAGE_SPECIFIER_ATTACHEE_PROPERTY (image)); } static Lisp_Object image_instantiate_cache_result (Lisp_Object locative) { /* locative = (instance instantiator . subtable) So we are using the instantiator as the key and the instance as the value. Since the hashtable is key-weak this means that the image instance will stay around as long as the instantiator stays around. The instantiator is stored in the `image' slot of the glyph, so as long as the glyph is marked the instantiator will be as well and hence the cached image instance also.*/ Fputhash (XCAR (XCDR (locative)), XCAR (locative), XCDR (XCDR (locative))); free_cons (XCONS (XCDR (locative))); free_cons (XCONS (locative)); return Qnil; } /* Given a specification for an image, return an instance of the image which matches the given instantiator and which can be displayed in the given domain. */ static Lisp_Object image_instantiate (Lisp_Object specifier, Lisp_Object matchspec, Lisp_Object domain, Lisp_Object instantiator, Lisp_Object depth) { Lisp_Object device = DFW_DEVICE (domain); struct device *d = XDEVICE (device); Lisp_Object glyph = IMAGE_SPECIFIER_ATTACHEE (XIMAGE_SPECIFIER (specifier)); int dest_mask = XIMAGE_SPECIFIER_ALLOWED (specifier); int pointerp = dest_mask & image_instance_type_to_mask (IMAGE_POINTER); if (IMAGE_INSTANCEP (instantiator)) { /* make sure that the image instance's device and type are matching. */ if (EQ (device, XIMAGE_INSTANCE_DEVICE (instantiator))) { int mask = image_instance_type_to_mask (XIMAGE_INSTANCE_TYPE (instantiator)); if (mask & dest_mask) return instantiator; else signal_simple_error ("Type of image instance not allowed here", instantiator); } else signal_simple_error_2 ("Wrong device for image instance", instantiator, device); } else if (VECTORP (instantiator) && EQ (XVECTOR_DATA (instantiator)[0], Qinherit)) { assert (XVECTOR_LENGTH (instantiator) == 3); return (FACE_PROPERTY_INSTANCE (Fget_face (XVECTOR_DATA (instantiator)[2]), Qbackground_pixmap, domain, 0, depth)); } else { Lisp_Object instance; Lisp_Object subtable; Lisp_Object ls3 = Qnil; Lisp_Object pointer_fg = Qnil; Lisp_Object pointer_bg = Qnil; if (dest_mask & (IMAGE_SUBWINDOW_MASK | IMAGE_WIDGET_MASK | IMAGE_TEXT_MASK)) { if (!WINDOWP (domain)) signal_simple_error ("Can't instantiate text or subwindow outside a window", instantiator); else if ((dest_mask & (IMAGE_SUBWINDOW_MASK | IMAGE_WIDGET_MASK)) && MINI_WINDOW_P (XWINDOW (domain))) domain = Fnext_window (domain, Qnil, Qnil, Qnil); } if (pointerp) { pointer_fg = FACE_FOREGROUND (Vpointer_face, domain); pointer_bg = FACE_BACKGROUND (Vpointer_face, domain); ls3 = list3 (instantiator, pointer_fg, pointer_bg); } /* First look in the hash table. */ subtable = Fgethash (make_int (dest_mask), d->image_instance_cache, Qunbound); if (UNBOUNDP (subtable)) { /* For the image instance cache, we do comparisons with EQ rather than with EQUAL, as we do for color and font names. The reasons are: 1) pixmap data can be very long, and thus the hashing and comparing will take awhile. 2) It's not so likely that we'll run into things that are EQUAL but not EQ (that can happen a lot with faces, because their specifiers are copied around); but pixmaps tend not to be in faces. However, if the image-instance could be a pointer, we have to use EQUAL because we massaged the instantiator into a cons3 also containing the foreground and background of the pointer face. */ subtable = make_lisp_hash_table (20, pointerp ? HASH_TABLE_KEY_CAR_WEAK : HASH_TABLE_KEY_WEAK, pointerp ? HASH_TABLE_EQUAL : HASH_TABLE_EQ); Fputhash (make_int (dest_mask), subtable, d->image_instance_cache); instance = Qunbound; } else { instance = Fgethash (pointerp ? ls3 : instantiator, subtable, Qunbound); /* subwindows have a per-window cache and have to be treated differently. dest_mask can be a bitwise OR of all image types so we will only catch someone possibly trying to instantiate a subwindow type thing. Unfortunately, this will occur most of the time so this probably slows things down. But with the current design I don't see anyway round it. */ if (UNBOUNDP (instance) && dest_mask & (IMAGE_SUBWINDOW_MASK | IMAGE_WIDGET_MASK | IMAGE_TEXT_MASK)) { instance = Fgethash (instantiator, XWINDOW (domain)->subwindow_instance_cache, Qunbound); } } if (UNBOUNDP (instance)) { Lisp_Object locative = noseeum_cons (Qnil, noseeum_cons (pointerp ? ls3 : instantiator, subtable)); int speccount = specpdl_depth (); /* make sure we cache the failures, too. Use an unwind-protect to catch such errors. If we fail, the unwind-protect records nil in the hash table. If we succeed, we change the car of the locative to the resulting instance, which gets recorded instead. */ record_unwind_protect (image_instantiate_cache_result, locative); instance = instantiate_image_instantiator (device, domain, instantiator, pointer_fg, pointer_bg, dest_mask, glyph); Fsetcar (locative, instance); /* only after the image has been instantiated do we know whether we need to put it in the per-window image instance cache. */ if (image_instance_type_to_mask (XIMAGE_INSTANCE_TYPE (instance)) & (IMAGE_SUBWINDOW_MASK | IMAGE_WIDGET_MASK | IMAGE_TEXT_MASK )) { Fsetcdr (XCDR (locative), XWINDOW (domain)->subwindow_instance_cache); } unbind_to (speccount, Qnil); } else free_list (ls3); if (NILP (instance)) signal_simple_error ("Can't instantiate image (probably cached)", instantiator); return instance; } abort (); return Qnil; /* not reached */ } /* Validate an image instantiator. */ static void image_validate (Lisp_Object instantiator) { if (IMAGE_INSTANCEP (instantiator) || STRINGP (instantiator)) return; else if (VECTORP (instantiator)) { Lisp_Object *elt = XVECTOR_DATA (instantiator); int instantiator_len = XVECTOR_LENGTH (instantiator); struct image_instantiator_methods *meths; Lisp_Object already_seen = Qnil; struct gcpro gcpro1; int i; if (instantiator_len < 1) signal_simple_error ("Vector length must be at least 1", instantiator); meths = decode_image_instantiator_format (elt[0], ERROR_ME); if (!(instantiator_len & 1)) signal_simple_error ("Must have alternating keyword/value pairs", instantiator); GCPRO1 (already_seen); for (i = 1; i < instantiator_len; i += 2) { Lisp_Object keyword = elt[i]; Lisp_Object value = elt[i+1]; int j; CHECK_SYMBOL (keyword); if (!SYMBOL_IS_KEYWORD (keyword)) signal_simple_error ("Symbol must begin with a colon", keyword); for (j = 0; j < Dynarr_length (meths->keywords); j++) if (EQ (keyword, Dynarr_at (meths->keywords, j).keyword)) break; if (j == Dynarr_length (meths->keywords)) signal_simple_error ("Unrecognized keyword", keyword); if (!Dynarr_at (meths->keywords, j).multiple_p) { if (!NILP (memq_no_quit (keyword, already_seen))) signal_simple_error ("Keyword may not appear more than once", keyword); already_seen = Fcons (keyword, already_seen); } (Dynarr_at (meths->keywords, j).validate) (value); } UNGCPRO; MAYBE_IIFORMAT_METH (meths, validate, (instantiator)); } else signal_simple_error ("Must be string or vector", instantiator); } static void image_after_change (Lisp_Object specifier, Lisp_Object locale) { Lisp_Object attachee = IMAGE_SPECIFIER_ATTACHEE (XIMAGE_SPECIFIER (specifier)); Lisp_Object property = IMAGE_SPECIFIER_ATTACHEE_PROPERTY (XIMAGE_SPECIFIER (specifier)); if (FACEP (attachee)) face_property_was_changed (attachee, property, locale); else if (GLYPHP (attachee)) glyph_property_was_changed (attachee, property, locale); } void set_image_attached_to (Lisp_Object obj, Lisp_Object face_or_glyph, Lisp_Object property) { Lisp_Specifier *image = XIMAGE_SPECIFIER (obj); IMAGE_SPECIFIER_ATTACHEE (image) = face_or_glyph; IMAGE_SPECIFIER_ATTACHEE_PROPERTY (image) = property; } static Lisp_Object image_going_to_add (Lisp_Object specifier, Lisp_Object locale, Lisp_Object tag_set, Lisp_Object instantiator) { Lisp_Object possible_console_types = Qnil; Lisp_Object rest; Lisp_Object retlist = Qnil; struct gcpro gcpro1, gcpro2; LIST_LOOP (rest, Vconsole_type_list) { Lisp_Object contype = XCAR (rest); if (!NILP (memq_no_quit (contype, tag_set))) possible_console_types = Fcons (contype, possible_console_types); } if (XINT (Flength (possible_console_types)) > 1) /* two conflicting console types specified */ return Qnil; if (NILP (possible_console_types)) possible_console_types = Vconsole_type_list; GCPRO2 (retlist, possible_console_types); LIST_LOOP (rest, possible_console_types) { Lisp_Object contype = XCAR (rest); Lisp_Object newinst = call_with_suspended_errors ((lisp_fn_t) normalize_image_instantiator, Qnil, Qimage, ERROR_ME_NOT, 3, instantiator, contype, make_int (XIMAGE_SPECIFIER_ALLOWED (specifier))); if (!NILP (newinst)) { Lisp_Object newtag; if (NILP (memq_no_quit (contype, tag_set))) newtag = Fcons (contype, tag_set); else newtag = tag_set; retlist = Fcons (Fcons (newtag, newinst), retlist); } } UNGCPRO; return retlist; } /* Copy an image instantiator. We can't use Fcopy_tree since widgets may contain circular references which would send Fcopy_tree into infloop death. */ static Lisp_Object image_copy_vector_instantiator (Lisp_Object instantiator) { int i; struct image_instantiator_methods *meths; Lisp_Object *elt; int instantiator_len; CHECK_VECTOR (instantiator); instantiator = Fcopy_sequence (instantiator); elt = XVECTOR_DATA (instantiator); instantiator_len = XVECTOR_LENGTH (instantiator); meths = decode_image_instantiator_format (elt[0], ERROR_ME); for (i = 1; i < instantiator_len; i += 2) { int j; Lisp_Object keyword = elt[i]; Lisp_Object value = elt[i+1]; /* Find the keyword entry. */ for (j = 0; j < Dynarr_length (meths->keywords); j++) { if (EQ (keyword, Dynarr_at (meths->keywords, j).keyword)) break; } /* Only copy keyword values that should be copied. */ if (Dynarr_at (meths->keywords, j).copy_p && (CONSP (value) || VECTORP (value))) { elt [i+1] = Fcopy_tree (value, Qt); } } return instantiator; } static Lisp_Object image_copy_instantiator (Lisp_Object arg) { if (CONSP (arg)) { Lisp_Object rest; rest = arg = Fcopy_sequence (arg); while (CONSP (rest)) { Lisp_Object elt = XCAR (rest); if (CONSP (elt)) XCAR (rest) = Fcopy_tree (elt, Qt); else if (VECTORP (elt)) XCAR (rest) = image_copy_vector_instantiator (elt); if (VECTORP (XCDR (rest))) /* hack for (a b . [c d]) */ XCDR (rest) = Fcopy_tree (XCDR (rest), Qt); rest = XCDR (rest); } } else if (VECTORP (arg)) { arg = image_copy_vector_instantiator (arg); } return arg; } DEFUN ("image-specifier-p", Fimage_specifier_p, 1, 1, 0, /* Return non-nil if OBJECT is an image specifier. An image specifier is used for images (pixmaps and the like). It is used to describe the actual image in a glyph. It is instanced as an image- instance. Image instantiators come in many formats: `xbm', `xpm', `gif', `jpeg', etc. This describes the format of the data describing the image. The resulting image instances also come in many types -- `mono-pixmap', `color-pixmap', `text', `pointer', etc. This refers to the behavior of the image and the sorts of places it can appear. (For example, a color-pixmap image has fixed colors specified for it, while a mono-pixmap image comes in two unspecified shades "foreground" and "background" that are determined from the face of the glyph or surrounding text; a text image appears as a string of text and has an unspecified foreground, background, and font; a pointer image behaves like a mono-pixmap image but can only be used as a mouse pointer \[mono-pixmap images cannot be used as mouse pointers]; etc.) It is important to keep the distinction between image instantiator format and image instance type in mind. Typically, a given image instantiator format can result in many different image instance types (for example, `xpm' can be instanced as `color-pixmap', `mono-pixmap', or `pointer'; whereas `cursor-font' can be instanced only as `pointer'), and a particular image instance type can be generated by many different image instantiator formats (e.g. `color-pixmap' can be generated by `xpm', `gif', `jpeg', etc.). See `make-image-instance' for a more detailed discussion of image instance types. An image instantiator should be a string or a vector of the form [FORMAT :KEYWORD VALUE ...] i.e. a format symbol followed by zero or more alternating keyword-value pairs. FORMAT should be one of 'nothing (Don't display anything; no keywords are valid for this. Can only be instanced as `nothing'.) 'string (Display this image as a text string. Can only be instanced as `text', although support for instancing as `mono-pixmap' should be added.) 'formatted-string (Display this image as a text string, with replaceable fields; not currently implemented.) 'xbm (An X bitmap; only if X or Windows support was compiled into this XEmacs. Can be instanced as `mono-pixmap', `color-pixmap', or `pointer'.) 'xpm (An XPM pixmap; only if XPM support was compiled into this XEmacs. Can be instanced as `color-pixmap', `mono-pixmap', or `pointer'.) 'xface (An X-Face bitmap, used to encode people's faces in e-mail messages; only if X-Face support was compiled into this XEmacs. Can be instanced as `mono-pixmap', `color-pixmap', or `pointer'.) 'gif (A GIF87 or GIF89 image; only if GIF support was compiled into this XEmacs. NOTE: only the first frame of animated gifs will be displayed. Can be instanced as `color-pixmap'.) 'jpeg (A JPEG image; only if JPEG support was compiled into this XEmacs. Can be instanced as `color-pixmap'.) 'png (A PNG image; only if PNG support was compiled into this XEmacs. Can be instanced as `color-pixmap'.) 'tiff (A TIFF image; only if TIFF support was compiled into this XEmacs. Can be instanced as `color-pixmap'.) 'cursor-font (One of the standard cursor-font names, such as "watch" or "right_ptr" under X. Under X, this is, more specifically, any of the standard cursor names from appendix B of the Xlib manual [also known as the file <X11/cursorfont.h>] minus the XC_ prefix. On other window systems, the valid names will be specific to the type of window system. Can only be instanced as `pointer'.) 'font (A glyph from a font; i.e. the name of a font, and glyph index into it of the form "FONT fontname index [[mask-font] mask-index]". Currently can only be instanced as `pointer', although this should probably be fixed.) 'subwindow (An embedded windowing system window.) 'edit-field (A text editing widget glyph.) 'button (A button widget glyph; either a push button, radio button or toggle button.) 'tab-control (A tab widget glyph; a series of user selectable tabs.) 'progress-gauge (A sliding widget glyph, for showing progress.) 'combo-box (A drop list of selectable items in a widget glyph, for editing text.) 'label (A static, text-only, widget glyph; for displaying text.) 'tree-view (A folding widget glyph.) 'autodetect (XEmacs tries to guess what format the data is in. If X support exists, the data string will be checked to see if it names a filename. If so, and this filename contains XBM or XPM data, the appropriate sort of pixmap or pointer will be created. [This includes picking up any specified hotspot or associated mask file.] Otherwise, if `pointer' is one of the allowable image-instance types and the string names a valid cursor-font name, the image will be created as a pointer. Otherwise, the image will be displayed as text. If no X support exists, the image will always be displayed as text.) 'inherit Inherit from the background-pixmap property of a face. The valid keywords are: :data (Inline data. For most formats above, this should be a string. For XBM images, this should be a list of three elements: width, height, and a string of bit data. This keyword is not valid for instantiator formats `nothing' and `inherit'.) :file (Data is contained in a file. The value is the name of this file. If both :data and :file are specified, the image is created from what is specified in :data and the string in :file becomes the value of the `image-instance-file-name' function when applied to the resulting image-instance. This keyword is not valid for instantiator formats `nothing', `string', `formatted-string', `cursor-font', `font', `autodetect', and `inherit'.) :foreground :background (For `xbm', `xface', `cursor-font', `widget' and `font'. These keywords allow you to explicitly specify foreground and background colors. The argument should be anything acceptable to `make-color-instance'. This will cause what would be a `mono-pixmap' to instead be colorized as a two-color color-pixmap, and specifies the foreground and/or background colors for a pointer instead of black and white.) :mask-data (For `xbm' and `xface'. This specifies a mask to be used with the bitmap. The format is a list of width, height, and bits, like for :data.) :mask-file (For `xbm' and `xface'. This specifies a file containing the mask data. If neither a mask file nor inline mask data is given for an XBM image, and the XBM image comes from a file, XEmacs will look for a mask file with the same name as the image file but with "Mask" or "msk" appended. For example, if you specify the XBM file "left_ptr" [usually located in "/usr/include/X11/bitmaps"], the associated mask file "left_ptrmsk" will automatically be picked up.) :hotspot-x :hotspot-y (For `xbm' and `xface'. These keywords specify a hotspot if the image is instantiated as a `pointer'. Note that if the XBM image file specifies a hotspot, it will automatically be picked up if no explicit hotspot is given.) :color-symbols (Only for `xpm'. This specifies an alist that maps strings that specify symbolic color names to the actual color to be used for that symbolic color (in the form of a string or a color-specifier object). If this is not specified, the contents of `xpm-color-symbols' are used to generate the alist.) :face (Only for `inherit'. This specifies the face to inherit from. For widget glyphs this also specifies the face to use for display. It defaults to gui-element-face.) Keywords accepted as menu item specs are also accepted by widget glyphs. These are `:selected', `:active', `:suffix', `:keys', `:style', `:filter', `:config', `:included', `:key-sequence', `:accelerator', `:label' and `:callback'. If instead of a vector, the instantiator is a string, it will be converted into a vector by looking it up according to the specs in the `console-type-image-conversion-list' (q.v.) for the console type of the domain (usually a window; sometimes a frame or device) over which the image is being instantiated. If the instantiator specifies data from a file, the data will be read in at the time that the instantiator is added to the image (which may be well before when the image is actually displayed), and the instantiator will be converted into one of the inline-data forms, with the filename retained using a :file keyword. This implies that the file must exist when the instantiator is added to the image, but does not need to exist at any other time (e.g. it may safely be a temporary file). */ (object)) { return IMAGE_SPECIFIERP (object) ? Qt : Qnil; } /**************************************************************************** * Glyph Object * ****************************************************************************/ static Lisp_Object mark_glyph (Lisp_Object obj) { Lisp_Glyph *glyph = XGLYPH (obj); mark_object (glyph->image); mark_object (glyph->contrib_p); mark_object (glyph->baseline); mark_object (glyph->face); return glyph->plist; } static void print_glyph (Lisp_Object obj, Lisp_Object printcharfun, int escapeflag) { Lisp_Glyph *glyph = XGLYPH (obj); char buf[20]; if (print_readably) error ("printing unreadable object #<glyph 0x%x>", glyph->header.uid); write_c_string ("#<glyph (", printcharfun); print_internal (Fglyph_type (obj), printcharfun, 0); write_c_string (") ", printcharfun); print_internal (glyph->image, printcharfun, 1); sprintf (buf, "0x%x>", glyph->header.uid); write_c_string (buf, printcharfun); } /* Glyphs are equal if all of their display attributes are equal. We don't compare names or doc-strings, because that would make equal be eq. This isn't concerned with "unspecified" attributes, that's what #'glyph-differs-from-default-p is for. */ static int glyph_equal (Lisp_Object obj1, Lisp_Object obj2, int depth) { Lisp_Glyph *g1 = XGLYPH (obj1); Lisp_Glyph *g2 = XGLYPH (obj2); depth++; return (internal_equal (g1->image, g2->image, depth) && internal_equal (g1->contrib_p, g2->contrib_p, depth) && internal_equal (g1->baseline, g2->baseline, depth) && internal_equal (g1->face, g2->face, depth) && !plists_differ (g1->plist, g2->plist, 0, 0, depth + 1)); } static unsigned long glyph_hash (Lisp_Object obj, int depth) { depth++; /* No need to hash all of the elements; that would take too long. Just hash the most common ones. */ return HASH2 (internal_hash (XGLYPH (obj)->image, depth), internal_hash (XGLYPH (obj)->face, depth)); } static Lisp_Object glyph_getprop (Lisp_Object obj, Lisp_Object prop) { Lisp_Glyph *g = XGLYPH (obj); if (EQ (prop, Qimage)) return g->image; if (EQ (prop, Qcontrib_p)) return g->contrib_p; if (EQ (prop, Qbaseline)) return g->baseline; if (EQ (prop, Qface)) return g->face; return external_plist_get (&g->plist, prop, 0, ERROR_ME); } static int glyph_putprop (Lisp_Object obj, Lisp_Object prop, Lisp_Object value) { if (EQ (prop, Qimage) || EQ (prop, Qcontrib_p) || EQ (prop, Qbaseline)) return 0; if (EQ (prop, Qface)) { XGLYPH (obj)->face = Fget_face (value); return 1; } external_plist_put (&XGLYPH (obj)->plist, prop, value, 0, ERROR_ME); return 1; } static int glyph_remprop (Lisp_Object obj, Lisp_Object prop) { if (EQ (prop, Qimage) || EQ (prop, Qcontrib_p) || EQ (prop, Qbaseline)) return -1; if (EQ (prop, Qface)) { XGLYPH (obj)->face = Qnil; return 1; } return external_remprop (&XGLYPH (obj)->plist, prop, 0, ERROR_ME); } static Lisp_Object glyph_plist (Lisp_Object obj) { Lisp_Glyph *glyph = XGLYPH (obj); Lisp_Object result = glyph->plist; result = cons3 (Qface, glyph->face, result); result = cons3 (Qbaseline, glyph->baseline, result); result = cons3 (Qcontrib_p, glyph->contrib_p, result); result = cons3 (Qimage, glyph->image, result); return result; } static const struct lrecord_description glyph_description[] = { { XD_LISP_OBJECT, offsetof (Lisp_Glyph, image) }, { XD_LISP_OBJECT, offsetof (Lisp_Glyph, contrib_p) }, { XD_LISP_OBJECT, offsetof (Lisp_Glyph, baseline) }, { XD_LISP_OBJECT, offsetof (Lisp_Glyph, face) }, { XD_LISP_OBJECT, offsetof (Lisp_Glyph, plist) }, { XD_END } }; DEFINE_LRECORD_IMPLEMENTATION_WITH_PROPS ("glyph", glyph, mark_glyph, print_glyph, 0, glyph_equal, glyph_hash, glyph_description, glyph_getprop, glyph_putprop, glyph_remprop, glyph_plist, Lisp_Glyph); Lisp_Object allocate_glyph (enum glyph_type type, void (*after_change) (Lisp_Object glyph, Lisp_Object property, Lisp_Object locale)) { /* This function can GC */ Lisp_Object obj = Qnil; Lisp_Glyph *g = alloc_lcrecord_type (Lisp_Glyph, &lrecord_glyph); g->type = type; g->image = Fmake_specifier (Qimage); /* This function can GC */ g->dirty = 0; switch (g->type) { case GLYPH_BUFFER: XIMAGE_SPECIFIER_ALLOWED (g->image) = IMAGE_NOTHING_MASK | IMAGE_TEXT_MASK | IMAGE_MONO_PIXMAP_MASK | IMAGE_COLOR_PIXMAP_MASK | IMAGE_SUBWINDOW_MASK | IMAGE_WIDGET_MASK | IMAGE_LAYOUT_MASK; break; case GLYPH_POINTER: XIMAGE_SPECIFIER_ALLOWED (g->image) = IMAGE_NOTHING_MASK | IMAGE_POINTER_MASK; break; case GLYPH_ICON: XIMAGE_SPECIFIER_ALLOWED (g->image) = IMAGE_NOTHING_MASK | IMAGE_MONO_PIXMAP_MASK | IMAGE_COLOR_PIXMAP_MASK; break; default: abort (); } /* I think Fmake_specifier can GC. I think set_specifier_fallback can GC. */ /* We're getting enough reports of odd behavior in this area it seems */ /* best to GCPRO everything. */ { Lisp_Object tem1 = list1 (Fcons (Qnil, Vthe_nothing_vector)); Lisp_Object tem2 = list1 (Fcons (Qnil, Qt)); Lisp_Object tem3 = list1 (Fcons (Qnil, Qnil)); struct gcpro gcpro1, gcpro2, gcpro3, gcpro4; GCPRO4 (obj, tem1, tem2, tem3); set_specifier_fallback (g->image, tem1); g->contrib_p = Fmake_specifier (Qboolean); set_specifier_fallback (g->contrib_p, tem2); /* #### should have a specifier for the following */ g->baseline = Fmake_specifier (Qgeneric); set_specifier_fallback (g->baseline, tem3); g->face = Qnil; g->plist = Qnil; g->after_change = after_change; XSETGLYPH (obj, g); set_image_attached_to (g->image, obj, Qimage); UNGCPRO; } return obj; } static enum glyph_type decode_glyph_type (Lisp_Object type, Error_behavior errb) { if (NILP (type)) return GLYPH_BUFFER; if (ERRB_EQ (errb, ERROR_ME)) CHECK_SYMBOL (type); if (EQ (type, Qbuffer)) return GLYPH_BUFFER; if (EQ (type, Qpointer)) return GLYPH_POINTER; if (EQ (type, Qicon)) return GLYPH_ICON; maybe_signal_simple_error ("Invalid glyph type", type, Qimage, errb); return GLYPH_UNKNOWN; } static int valid_glyph_type_p (Lisp_Object type) { return !NILP (memq_no_quit (type, Vglyph_type_list)); } DEFUN ("valid-glyph-type-p", Fvalid_glyph_type_p, 1, 1, 0, /* Given a GLYPH-TYPE, return non-nil if it is valid. Valid types are `buffer', `pointer', and `icon'. */ (glyph_type)) { return valid_glyph_type_p (glyph_type) ? Qt : Qnil; } DEFUN ("glyph-type-list", Fglyph_type_list, 0, 0, 0, /* Return a list of valid glyph types. */ ()) { return Fcopy_sequence (Vglyph_type_list); } DEFUN ("make-glyph-internal", Fmake_glyph_internal, 0, 1, 0, /* Create and return a new uninitialized glyph or type TYPE. TYPE specifies the type of the glyph; this should be one of `buffer', `pointer', or `icon', and defaults to `buffer'. The type of the glyph specifies in which contexts the glyph can be used, and controls the allowable image types into which the glyph's image can be instantiated. `buffer' glyphs can be used as the begin-glyph or end-glyph of an extent, in the modeline, and in the toolbar. Their image can be instantiated as `nothing', `mono-pixmap', `color-pixmap', `text', and `subwindow'. `pointer' glyphs can be used to specify the mouse pointer. Their image can be instantiated as `pointer'. `icon' glyphs can be used to specify the icon used when a frame is iconified. Their image can be instantiated as `mono-pixmap' and `color-pixmap'. */ (type)) { enum glyph_type typeval = decode_glyph_type (type, ERROR_ME); return allocate_glyph (typeval, 0); } DEFUN ("glyphp", Fglyphp, 1, 1, 0, /* Return non-nil if OBJECT is a glyph. A glyph is an object used for pixmaps and the like. It is used in begin-glyphs and end-glyphs attached to extents, in marginal and textual annotations, in overlay arrows (overlay-arrow-* variables), in toolbar buttons, and the like. Its image is described using an image specifier -- see `image-specifier-p'. */ (object)) { return GLYPHP (object) ? Qt : Qnil; } DEFUN ("glyph-type", Fglyph_type, 1, 1, 0, /* Return the type of the given glyph. The return value will be one of 'buffer, 'pointer, or 'icon. */ (glyph)) { CHECK_GLYPH (glyph); switch (XGLYPH_TYPE (glyph)) { default: abort (); case GLYPH_BUFFER: return Qbuffer; case GLYPH_POINTER: return Qpointer; case GLYPH_ICON: return Qicon; } } Lisp_Object glyph_image_instance (Lisp_Object glyph, Lisp_Object domain, Error_behavior errb, int no_quit) { Lisp_Object specifier = GLYPH_IMAGE (XGLYPH (glyph)); /* This can never return Qunbound. All glyphs have 'nothing as a fallback. */ Lisp_Object image_instance = specifier_instance (specifier, Qunbound, domain, errb, no_quit, 0, Qzero); assert (!UNBOUNDP (image_instance)); return image_instance; } static Lisp_Object glyph_image_instance_maybe (Lisp_Object glyph_or_image, Lisp_Object window) { Lisp_Object instance = glyph_or_image; if (GLYPHP (glyph_or_image)) instance = glyph_image_instance (glyph_or_image, window, ERROR_ME_NOT, 1); return instance; } /***************************************************************************** glyph_width Return the width of the given GLYPH on the given WINDOW. Calculations are done based on recursively querying the geometry of the associated image instances. ****************************************************************************/ unsigned short glyph_width (Lisp_Object glyph_or_image, Lisp_Object domain) { Lisp_Object instance = glyph_image_instance_maybe (glyph_or_image, domain); if (!IMAGE_INSTANCEP (instance)) return 0; if (XIMAGE_INSTANCE_NEEDS_LAYOUT (instance)) image_instance_layout (instance, IMAGE_UNSPECIFIED_GEOMETRY, IMAGE_UNSPECIFIED_GEOMETRY, domain); return XIMAGE_INSTANCE_WIDTH (instance); } DEFUN ("glyph-width", Fglyph_width, 1, 2, 0, /* Return the width of GLYPH on WINDOW. This may not be exact as it does not take into account all of the context that redisplay will. */ (glyph, window)) { XSETWINDOW (window, decode_window (window)); CHECK_GLYPH (glyph); return make_int (glyph_width (glyph, window)); } unsigned short glyph_ascent (Lisp_Object glyph_or_image, Lisp_Object domain) { Lisp_Object instance = glyph_image_instance_maybe (glyph_or_image, domain); if (!IMAGE_INSTANCEP (instance)) return 0; if (XIMAGE_INSTANCE_NEEDS_LAYOUT (instance)) image_instance_layout (instance, IMAGE_UNSPECIFIED_GEOMETRY, IMAGE_UNSPECIFIED_GEOMETRY, domain); if (XIMAGE_INSTANCE_TYPE (instance) == IMAGE_TEXT) return XIMAGE_INSTANCE_TEXT_ASCENT (instance); else return XIMAGE_INSTANCE_HEIGHT (instance); } unsigned short glyph_descent (Lisp_Object glyph_or_image, Lisp_Object domain) { Lisp_Object instance = glyph_image_instance_maybe (glyph_or_image, domain); if (!IMAGE_INSTANCEP (instance)) return 0; if (XIMAGE_INSTANCE_NEEDS_LAYOUT (instance)) image_instance_layout (instance, IMAGE_UNSPECIFIED_GEOMETRY, IMAGE_UNSPECIFIED_GEOMETRY, domain); if (XIMAGE_INSTANCE_TYPE (instance) == IMAGE_TEXT) return XIMAGE_INSTANCE_TEXT_DESCENT (instance); else return 0; } /* strictly a convenience function. */ unsigned short glyph_height (Lisp_Object glyph_or_image, Lisp_Object domain) { Lisp_Object instance = glyph_image_instance_maybe (glyph_or_image, domain); if (!IMAGE_INSTANCEP (instance)) return 0; if (XIMAGE_INSTANCE_NEEDS_LAYOUT (instance)) image_instance_layout (instance, IMAGE_UNSPECIFIED_GEOMETRY, IMAGE_UNSPECIFIED_GEOMETRY, domain); return XIMAGE_INSTANCE_HEIGHT (instance); } DEFUN ("glyph-ascent", Fglyph_ascent, 1, 2, 0, /* Return the ascent value of GLYPH on WINDOW. This may not be exact as it does not take into account all of the context that redisplay will. */ (glyph, window)) { XSETWINDOW (window, decode_window (window)); CHECK_GLYPH (glyph); return make_int (glyph_ascent (glyph, window)); } DEFUN ("glyph-descent", Fglyph_descent, 1, 2, 0, /* Return the descent value of GLYPH on WINDOW. This may not be exact as it does not take into account all of the context that redisplay will. */ (glyph, window)) { XSETWINDOW (window, decode_window (window)); CHECK_GLYPH (glyph); return make_int (glyph_descent (glyph, window)); } /* This is redundant but I bet a lot of people expect it to exist. */ DEFUN ("glyph-height", Fglyph_height, 1, 2, 0, /* Return the height of GLYPH on WINDOW. This may not be exact as it does not take into account all of the context that redisplay will. */ (glyph, window)) { XSETWINDOW (window, decode_window (window)); CHECK_GLYPH (glyph); return make_int (glyph_height (glyph, window)); } static void set_glyph_dirty_p (Lisp_Object glyph_or_image, Lisp_Object window, int dirty) { Lisp_Object instance = glyph_or_image; if (!NILP (glyph_or_image)) { if (GLYPHP (glyph_or_image)) { instance = glyph_image_instance (glyph_or_image, window, ERROR_ME_NOT, 1); XGLYPH_DIRTYP (glyph_or_image) = dirty; } XIMAGE_INSTANCE_DIRTYP (instance) = dirty; } } static void set_image_instance_dirty_p (Lisp_Object instance, int dirty) { if (IMAGE_INSTANCEP (instance)) { XIMAGE_INSTANCE_DIRTYP (instance) = dirty; /* Now cascade up the hierarchy. */ set_image_instance_dirty_p (XIMAGE_INSTANCE_PARENT (instance), dirty); } else if (GLYPHP (instance)) { XGLYPH_DIRTYP (instance) = dirty; } } /* #### do we need to cache this info to speed things up? */ Lisp_Object glyph_baseline (Lisp_Object glyph, Lisp_Object domain) { if (!GLYPHP (glyph)) return Qnil; else { Lisp_Object retval = specifier_instance_no_quit (GLYPH_BASELINE (XGLYPH (glyph)), /* #### look into ERROR_ME_NOT */ Qunbound, domain, ERROR_ME_NOT, 0, Qzero); if (!NILP (retval) && !INTP (retval)) retval = Qnil; else if (INTP (retval)) { if (XINT (retval) < 0) retval = Qzero; if (XINT (retval) > 100) retval = make_int (100); } return retval; } } Lisp_Object glyph_face (Lisp_Object glyph, Lisp_Object domain) { /* #### Domain parameter not currently used but it will be */ return GLYPHP (glyph) ? GLYPH_FACE (XGLYPH (glyph)) : Qnil; } int glyph_contrib_p (Lisp_Object glyph, Lisp_Object domain) { if (!GLYPHP (glyph)) return 0; else return !NILP (specifier_instance_no_quit (GLYPH_CONTRIB_P (XGLYPH (glyph)), Qunbound, domain, /* #### look into ERROR_ME_NOT */ ERROR_ME_NOT, 0, Qzero)); } static void glyph_property_was_changed (Lisp_Object glyph, Lisp_Object property, Lisp_Object locale) { if (XGLYPH (glyph)->after_change) (XGLYPH (glyph)->after_change) (glyph, property, locale); } #if 0 /* Not used for now */ static void glyph_query_geometry (Lisp_Object glyph_or_image, Lisp_Object window, unsigned int* width, unsigned int* height, enum image_instance_geometry disp, Lisp_Object domain) { Lisp_Object instance = glyph_or_image; if (GLYPHP (glyph_or_image)) instance = glyph_image_instance (glyph_or_image, window, ERROR_ME_NOT, 1); image_instance_query_geometry (instance, width, height, disp, domain); } static void glyph_layout (Lisp_Object glyph_or_image, Lisp_Object window, unsigned int width, unsigned int height, Lisp_Object domain) { Lisp_Object instance = glyph_or_image; if (GLYPHP (glyph_or_image)) instance = glyph_image_instance (glyph_or_image, window, ERROR_ME_NOT, 1); image_instance_layout (instance, width, height, domain); } #endif /***************************************************************************** * glyph cachel functions * *****************************************************************************/ /* #### All of this is 95% copied from face cachels. Consider consolidating. Why do we need glyph_cachels? Simply because a glyph_cachel captures per-window information about a particular glyph. A glyph itself is not created in any particular context, so if we were to rely on a glyph to tell us about its dirtiness we would not be able to reset the dirty flag after redisplaying it as it may exist in other contexts. When we have redisplayed we need to know which glyphs to reset the dirty flags on - the glyph_cachels give us a nice list we can iterate through doing this. */ void mark_glyph_cachels (glyph_cachel_dynarr *elements) { int elt; if (!elements) return; for (elt = 0; elt < Dynarr_length (elements); elt++) { struct glyph_cachel *cachel = Dynarr_atp (elements, elt); mark_object (cachel->glyph); } } static void update_glyph_cachel_data (struct window *w, Lisp_Object glyph, struct glyph_cachel *cachel) { if (!cachel->updated || NILP (cachel->glyph) || !EQ (cachel->glyph, glyph) || XGLYPH_DIRTYP (cachel->glyph) || XFRAME(WINDOW_FRAME(w))->faces_changed) { Lisp_Object window, instance; XSETWINDOW (window, w); cachel->glyph = glyph; /* Speed things up slightly by grabbing the glyph instantiation and passing it to the size functions. */ instance = glyph_image_instance (glyph, window, ERROR_ME_NOT, 1); /* Mark text instance of the glyph dirty if faces have changed, because its geometry might have changed. */ invalidate_glyph_geometry_maybe (instance, w); /* #### Do the following 2 lines buy us anything? --kkm */ XGLYPH_DIRTYP (glyph) = XIMAGE_INSTANCE_DIRTYP (instance); cachel->dirty = XGLYPH_DIRTYP (glyph); cachel->width = glyph_width (instance, window); cachel->ascent = glyph_ascent (instance, window); cachel->descent = glyph_descent (instance, window); } cachel->updated = 1; } static void add_glyph_cachel (struct window *w, Lisp_Object glyph) { struct glyph_cachel new_cachel; xzero (new_cachel); new_cachel.glyph = Qnil; update_glyph_cachel_data (w, glyph, &new_cachel); Dynarr_add (w->glyph_cachels, new_cachel); } glyph_index get_glyph_cachel_index (struct window *w, Lisp_Object glyph) { int elt; if (noninteractive) return 0; for (elt = 0; elt < Dynarr_length (w->glyph_cachels); elt++) { struct glyph_cachel *cachel = Dynarr_atp (w->glyph_cachels, elt); if (EQ (cachel->glyph, glyph) && !NILP (glyph)) { update_glyph_cachel_data (w, glyph, cachel); return elt; } } /* If we didn't find the glyph, add it and then return its index. */ add_glyph_cachel (w, glyph); return elt; } void reset_glyph_cachels (struct window *w) { Dynarr_reset (w->glyph_cachels); get_glyph_cachel_index (w, Vcontinuation_glyph); get_glyph_cachel_index (w, Vtruncation_glyph); get_glyph_cachel_index (w, Vhscroll_glyph); get_glyph_cachel_index (w, Vcontrol_arrow_glyph); get_glyph_cachel_index (w, Voctal_escape_glyph); get_glyph_cachel_index (w, Vinvisible_text_glyph); } void mark_glyph_cachels_as_not_updated (struct window *w) { int elt; /* We need to have a dirty flag to tell if the glyph has changed. We can check to see if each glyph variable is actually a completely different glyph, though. */ #define FROB(glyph_obj, gindex) \ update_glyph_cachel_data (w, glyph_obj, \ Dynarr_atp (w->glyph_cachels, gindex)) FROB (Vcontinuation_glyph, CONT_GLYPH_INDEX); FROB (Vtruncation_glyph, TRUN_GLYPH_INDEX); FROB (Vhscroll_glyph, HSCROLL_GLYPH_INDEX); FROB (Vcontrol_arrow_glyph, CONTROL_GLYPH_INDEX); FROB (Voctal_escape_glyph, OCT_ESC_GLYPH_INDEX); FROB (Vinvisible_text_glyph, INVIS_GLYPH_INDEX); #undef FROB for (elt = 0; elt < Dynarr_length (w->glyph_cachels); elt++) { Dynarr_atp (w->glyph_cachels, elt)->updated = 0; } } /* Unset the dirty bit on all the glyph cachels that have it. */ void mark_glyph_cachels_as_clean (struct window* w) { int elt; Lisp_Object window; XSETWINDOW (window, w); for (elt = 0; elt < Dynarr_length (w->glyph_cachels); elt++) { struct glyph_cachel *cachel = Dynarr_atp (w->glyph_cachels, elt); cachel->dirty = 0; set_glyph_dirty_p (cachel->glyph, window, 0); } } #ifdef MEMORY_USAGE_STATS int compute_glyph_cachel_usage (glyph_cachel_dynarr *glyph_cachels, struct overhead_stats *ovstats) { int total = 0; if (glyph_cachels) total += Dynarr_memory_usage (glyph_cachels, ovstats); return total; } #endif /* MEMORY_USAGE_STATS */ /***************************************************************************** * subwindow cachel functions * *****************************************************************************/ /* Subwindows are curious in that you have to physically unmap them to not display them. It is problematic deciding what to do in redisplay. We have two caches - a per-window instance cache that keeps track of subwindows on a window, these are linked to their instantiator in the hashtable and when the instantiator goes away we want the instance to go away also. However we also have a per-frame instance cache that we use to determine if a subwindow is obscuring an area that we want to clear. We need to be able to flip through this quickly so a hashtable is not suitable hence the subwindow_cachels. The question is should we just not mark instances in the subwindow_cachels or should we try and invalidate the cache at suitable points in redisplay? If we don't invalidate the cache it will fill up with crud that will only get removed when the frame is deleted. So invalidation is good, the question is when and whether we mark as well. Go for the simple option - don't mark, MARK_SUBWINDOWS_CHANGED when a subwindow gets deleted. */ void mark_subwindow_cachels (subwindow_cachel_dynarr *elements) { int elt; if (!elements) return; for (elt = 0; elt < Dynarr_length (elements); elt++) { struct subwindow_cachel *cachel = Dynarr_atp (elements, elt); mark_object (cachel->subwindow); } } static void update_subwindow_cachel_data (struct frame *f, Lisp_Object subwindow, struct subwindow_cachel *cachel) { cachel->subwindow = subwindow; cachel->width = XIMAGE_INSTANCE_SUBWINDOW_WIDTH (subwindow); cachel->height = XIMAGE_INSTANCE_SUBWINDOW_HEIGHT (subwindow); cachel->updated = 1; } static void add_subwindow_cachel (struct frame *f, Lisp_Object subwindow) { struct subwindow_cachel new_cachel; xzero (new_cachel); new_cachel.subwindow = Qnil; new_cachel.x=0; new_cachel.y=0; new_cachel.being_displayed=0; update_subwindow_cachel_data (f, subwindow, &new_cachel); Dynarr_add (f->subwindow_cachels, new_cachel); } static int get_subwindow_cachel_index (struct frame *f, Lisp_Object subwindow) { int elt; if (noninteractive) return 0; for (elt = 0; elt < Dynarr_length (f->subwindow_cachels); elt++) { struct subwindow_cachel *cachel = Dynarr_atp (f->subwindow_cachels, elt); if (EQ (cachel->subwindow, subwindow) && !NILP (subwindow)) { if (!cachel->updated) update_subwindow_cachel_data (f, subwindow, cachel); return elt; } } /* If we didn't find the glyph, add it and then return its index. */ add_subwindow_cachel (f, subwindow); return elt; } static void update_subwindow_cachel (Lisp_Object subwindow) { struct frame* f; int elt; if (NILP (subwindow)) return; f = XFRAME ( XIMAGE_INSTANCE_SUBWINDOW_FRAME (subwindow)); for (elt = 0; elt < Dynarr_length (f->subwindow_cachels); elt++) { struct subwindow_cachel *cachel = Dynarr_atp (f->subwindow_cachels, elt); if (EQ (cachel->subwindow, subwindow) && !NILP (subwindow)) { update_subwindow_cachel_data (f, subwindow, cachel); } } } /* redisplay in general assumes that drawing something will erase what was there before. unfortunately this does not apply to subwindows that need to be specifically unmapped in order to disappear. we take a brute force approach - on the basis that its cheap - and unmap all subwindows in a display line */ void reset_subwindow_cachels (struct frame *f) { int elt; for (elt = 0; elt < Dynarr_length (f->subwindow_cachels); elt++) { struct subwindow_cachel *cachel = Dynarr_atp (f->subwindow_cachels, elt); if (!NILP (cachel->subwindow) && cachel->being_displayed) { cachel->updated = 1; /* #### This is not optimal as update_subwindow will search the cachels for ourselves as well. We could easily optimize. */ unmap_subwindow (cachel->subwindow); } } Dynarr_reset (f->subwindow_cachels); } void mark_subwindow_cachels_as_not_updated (struct frame *f) { int elt; for (elt = 0; elt < Dynarr_length (f->subwindow_cachels); elt++) Dynarr_atp (f->subwindow_cachels, elt)->updated = 0; } /***************************************************************************** * subwindow exposure ignorance * *****************************************************************************/ /* when we unmap subwindows the associated window system will generate expose events. This we do not want as redisplay already copes with the repainting necessary. Worse, we can get in an endless cycle of redisplay if we are not careful. Thus we keep a per-frame list of expose events that are going to come and ignore them as required. */ struct expose_ignore_blocktype { Blocktype_declare (struct expose_ignore); } *the_expose_ignore_blocktype; int check_for_ignored_expose (struct frame* f, int x, int y, int width, int height) { struct expose_ignore *ei, *prev; /* the ignore list is FIFO so we should generally get a match with the first element in the list */ for (ei = f->subwindow_exposures, prev = 0; ei; ei = ei->next) { /* Checking for exact matches just isn't good enough as we mighte get exposures for partially obscure subwindows, thus we have to check for overlaps. Being conservative we will check for exposures wholly contained by the subwindow, this might give us what we want.*/ if (ei->x <= x && ei->y <= y && ei->x + ei->width >= x + width && ei->y + ei->height >= y + height) { #ifdef DEBUG_WIDGETS stderr_out ("ignored %d+%d, %dx%d for exposure %d+%d, %dx%d\n", x, y, width, height, ei->x, ei->y, ei->width, ei->height); #endif if (!prev) f->subwindow_exposures = ei->next; else prev->next = ei->next; if (ei == f->subwindow_exposures_tail) f->subwindow_exposures_tail = prev; Blocktype_free (the_expose_ignore_blocktype, ei); return 1; } prev = ei; } return 0; } static void register_ignored_expose (struct frame* f, int x, int y, int width, int height) { if (!hold_ignored_expose_registration) { struct expose_ignore *ei; ei = Blocktype_alloc (the_expose_ignore_blocktype); ei->next = NULL; ei->x = x; ei->y = y; ei->width = width; ei->height = height; /* we have to add the exposure to the end of the list, since we want to check the oldest events first. for speed we keep a record of the end so that we can add right to it. */ if (f->subwindow_exposures_tail) { f->subwindow_exposures_tail->next = ei; } if (!f->subwindow_exposures) { f->subwindow_exposures = ei; } f->subwindow_exposures_tail = ei; } } /**************************************************************************** find_matching_subwindow See if there is a subwindow that completely encloses the requested area. ****************************************************************************/ int find_matching_subwindow (struct frame* f, int x, int y, int width, int height) { int elt; for (elt = 0; elt < Dynarr_length (f->subwindow_cachels); elt++) { struct subwindow_cachel *cachel = Dynarr_atp (f->subwindow_cachels, elt); if (cachel->being_displayed && cachel->x <= x && cachel->y <= y && cachel->x + cachel->width >= x + width && cachel->y + cachel->height >= y + height) { return 1; } } return 0; } /***************************************************************************** * subwindow functions * *****************************************************************************/ /* Update the displayed characteristics of a subwindow. This function should generally only get called if the subwindow is actually dirty. */ void update_subwindow (Lisp_Object subwindow) { Lisp_Image_Instance* ii = XIMAGE_INSTANCE (subwindow); int count = specpdl_depth (); unsigned long display_hash = internal_hash (subwindow, IMAGE_INSTANCE_HASH_DEPTH); /* The update method is allowed to call eval. Since it is quite common for this function to get called from somewhere in redisplay we need to make sure that quits are ignored. Otherwise Fsignal will abort. */ specbind (Qinhibit_quit, Qt); if (IMAGE_INSTANCE_TYPE (ii) == IMAGE_WIDGET || IMAGE_INSTANCE_TYPE (ii) == IMAGE_LAYOUT) { if (IMAGE_INSTANCE_TYPE (ii) == IMAGE_WIDGET && (display_hash != IMAGE_INSTANCE_DISPLAY_HASH (ii) || IMAGE_INSTANCE_DISPLAY_HASH (ii) == 0)) { update_widget (subwindow); } /* Reset the changed flags. */ IMAGE_INSTANCE_WIDGET_FACE_CHANGED (ii) = 0; IMAGE_INSTANCE_WIDGET_PERCENT_CHANGED (ii) = 0; IMAGE_INSTANCE_WIDGET_ITEMS_CHANGED (ii) = 0; IMAGE_INSTANCE_TEXT_CHANGED (ii) = 0; } else if (IMAGE_INSTANCE_TYPE (ii) == IMAGE_SUBWINDOW && !NILP (IMAGE_INSTANCE_SUBWINDOW_FRAME (ii))) { MAYBE_DEVMETH (XDEVICE (ii->device), update_subwindow, (ii)); } IMAGE_INSTANCE_SIZE_CHANGED (ii) = 0; /* This function is typically called by redisplay just before outputting the information to the screen. Thus we record a hash of the output to determine whether on-screen is the same as recorded structure. This approach has limitations in there is a good chance that hash values will be different for the same visual appearance. However, we would rather that then the other way round - it simply means that we will get more displays than we might need. We can get better hashing by making the depth negative - currently it will recurse down 5 levels.*/ IMAGE_INSTANCE_DISPLAY_HASH (ii) = display_hash; unbind_to (count, Qnil); } /* Update all the subwindows on a frame. */ DEFUN ("update-widget-instances", Fupdate_widget_instances,1, 1, 0, /* Given a FRAME, re-evaluate the display hash code for all widgets in the frame. Don't use this. */ (frame)) { int elt; struct frame* f; CHECK_FRAME (frame); f = XFRAME (frame); /* If we get called we know something has changed. */ for (elt = 0; elt < Dynarr_length (f->subwindow_cachels); elt++) { struct subwindow_cachel *cachel = Dynarr_atp (f->subwindow_cachels, elt); if (cachel->being_displayed && XIMAGE_INSTANCE_TYPE (cachel->subwindow) == IMAGE_WIDGET) { /* If a subwindow hash changed mark it so that redisplay will fix it. */ if (internal_hash (cachel->subwindow, IMAGE_INSTANCE_HASH_DEPTH) != XIMAGE_INSTANCE_DISPLAY_HASH (cachel->subwindow)) { set_image_instance_dirty_p (cachel->subwindow, 1); MARK_FRAME_GLYPHS_CHANGED (f); } } } return Qnil; } /* remove a subwindow from its frame */ void unmap_subwindow (Lisp_Object subwindow) { Lisp_Image_Instance* ii = XIMAGE_INSTANCE (subwindow); int elt; struct subwindow_cachel* cachel; struct frame* f; if (!(IMAGE_INSTANCE_TYPE (ii) == IMAGE_WIDGET || IMAGE_INSTANCE_TYPE (ii) == IMAGE_SUBWINDOW) || NILP (IMAGE_INSTANCE_SUBWINDOW_FRAME (ii))) return; #ifdef DEBUG_WIDGETS stderr_out ("unmapping subwindow %d\n", IMAGE_INSTANCE_SUBWINDOW_ID (ii)); #endif f = XFRAME (IMAGE_INSTANCE_SUBWINDOW_FRAME (ii)); elt = get_subwindow_cachel_index (f, subwindow); cachel = Dynarr_atp (f->subwindow_cachels, elt); /* make sure we don't get expose events */ register_ignored_expose (f, cachel->x, cachel->y, cachel->width, cachel->height); cachel->x = ~0; cachel->y = ~0; cachel->being_displayed = 0; IMAGE_INSTANCE_SUBWINDOW_DISPLAYEDP (ii) = 0; MAYBE_DEVMETH (XDEVICE (ii->device), unmap_subwindow, (ii)); } /* show a subwindow in its frame */ void map_subwindow (Lisp_Object subwindow, int x, int y, struct display_glyph_area *dga) { Lisp_Image_Instance* ii = XIMAGE_INSTANCE (subwindow); int elt; struct subwindow_cachel* cachel; struct frame* f; if (!(IMAGE_INSTANCE_TYPE (ii) == IMAGE_WIDGET || IMAGE_INSTANCE_TYPE (ii) == IMAGE_SUBWINDOW) || NILP (IMAGE_INSTANCE_SUBWINDOW_FRAME (ii))) return; #ifdef DEBUG_WIDGETS stderr_out ("mapping subwindow %d, %dx%d@%d+%d\n", IMAGE_INSTANCE_SUBWINDOW_ID (ii), dga->width, dga->height, x, y); #endif f = XFRAME (IMAGE_INSTANCE_SUBWINDOW_FRAME (ii)); IMAGE_INSTANCE_SUBWINDOW_DISPLAYEDP (ii) = 1; elt = get_subwindow_cachel_index (f, subwindow); cachel = Dynarr_atp (f->subwindow_cachels, elt); cachel->x = x; cachel->y = y; cachel->width = dga->width; cachel->height = dga->height; cachel->being_displayed = 1; MAYBE_DEVMETH (XDEVICE (ii->device), map_subwindow, (ii, x, y, dga)); } static int subwindow_possible_dest_types (void) { return IMAGE_SUBWINDOW_MASK; } /* Partially instantiate a subwindow. */ void subwindow_instantiate (Lisp_Object image_instance, Lisp_Object instantiator, Lisp_Object pointer_fg, Lisp_Object pointer_bg, int dest_mask, Lisp_Object domain) { Lisp_Image_Instance *ii = XIMAGE_INSTANCE (image_instance); Lisp_Object device = IMAGE_INSTANCE_DEVICE (ii); Lisp_Object frame = FW_FRAME (domain); Lisp_Object width = find_keyword_in_vector (instantiator, Q_pixel_width); Lisp_Object height = find_keyword_in_vector (instantiator, Q_pixel_height); if (NILP (frame)) signal_simple_error ("No selected frame", device); if (!(dest_mask & IMAGE_SUBWINDOW_MASK)) incompatible_image_types (instantiator, dest_mask, IMAGE_SUBWINDOW_MASK); ii->data = 0; IMAGE_INSTANCE_SUBWINDOW_ID (ii) = 0; IMAGE_INSTANCE_SUBWINDOW_DISPLAYEDP (ii) = 0; IMAGE_INSTANCE_SUBWINDOW_FRAME (ii) = frame; /* #### This stuff may get overidden by the widget code and is actually really dumb now that we have dynamic geometry calculations. What should really happen is that the subwindow should query its child for an appropriate geometry. */ if (INTP (width)) { int w = 1; if (XINT (width) > 1) w = XINT (width); IMAGE_INSTANCE_SUBWINDOW_WIDTH (ii) = w; } else IMAGE_INSTANCE_SUBWINDOW_WIDTH (ii) = 20; if (INTP (height)) { int h = 1; if (XINT (height) > 1) h = XINT (height); IMAGE_INSTANCE_SUBWINDOW_HEIGHT (ii) = h; } else IMAGE_INSTANCE_SUBWINDOW_HEIGHT (ii) = 20; } DEFUN ("subwindowp", Fsubwindowp, 1, 1, 0, /* Return non-nil if OBJECT is a subwindow. */ (object)) { CHECK_IMAGE_INSTANCE (object); return (XIMAGE_INSTANCE_TYPE (object) == IMAGE_SUBWINDOW) ? Qt : Qnil; } DEFUN ("image-instance-subwindow-id", Fimage_instance_subwindow_id, 1, 1, 0, /* Return the window id of SUBWINDOW as a number. */ (subwindow)) { CHECK_SUBWINDOW_IMAGE_INSTANCE (subwindow); return make_int ((int) XIMAGE_INSTANCE_SUBWINDOW_ID (subwindow)); } DEFUN ("resize-subwindow", Fresize_subwindow, 1, 3, 0, /* Resize SUBWINDOW to WIDTH x HEIGHT. If a value is nil that parameter is not changed. */ (subwindow, width, height)) { int neww, newh; Lisp_Image_Instance* ii; CHECK_SUBWINDOW_IMAGE_INSTANCE (subwindow); ii = XIMAGE_INSTANCE (subwindow); if (NILP (width)) neww = IMAGE_INSTANCE_WIDTH (ii); else neww = XINT (width); if (NILP (height)) newh = IMAGE_INSTANCE_HEIGHT (ii); else newh = XINT (height); /* The actual resizing gets done asychronously by update_subwindow. */ IMAGE_INSTANCE_HEIGHT (ii) = newh; IMAGE_INSTANCE_WIDTH (ii) = neww; IMAGE_INSTANCE_SIZE_CHANGED (ii) = 1; /* need to update the cachels as redisplay will not do this */ update_subwindow_cachel (subwindow); return subwindow; } DEFUN ("force-subwindow-map", Fforce_subwindow_map, 1, 1, 0, /* Generate a Map event for SUBWINDOW. */ (subwindow)) { CHECK_SUBWINDOW_IMAGE_INSTANCE (subwindow); #if 0 map_subwindow (subwindow, 0, 0); #endif return subwindow; } /***************************************************************************** * display tables * *****************************************************************************/ /* Get the display tables for use currently on window W with face FACE. #### This will have to be redone. */ void get_display_tables (struct window *w, face_index findex, Lisp_Object *face_table, Lisp_Object *window_table) { Lisp_Object tem; tem = WINDOW_FACE_CACHEL_DISPLAY_TABLE (w, findex); if (UNBOUNDP (tem)) tem = Qnil; if (!LISTP (tem)) tem = noseeum_cons (tem, Qnil); *face_table = tem; tem = w->display_table; if (UNBOUNDP (tem)) tem = Qnil; if (!LISTP (tem)) tem = noseeum_cons (tem, Qnil); *window_table = tem; } Lisp_Object display_table_entry (Emchar ch, Lisp_Object face_table, Lisp_Object window_table) { Lisp_Object tail; /* Loop over FACE_TABLE, and then over WINDOW_TABLE. */ for (tail = face_table; 1; tail = XCDR (tail)) { Lisp_Object table; if (NILP (tail)) { if (!NILP (window_table)) { tail = window_table; window_table = Qnil; } else return Qnil; } table = XCAR (tail); if (VECTORP (table)) { if (ch < XVECTOR_LENGTH (table) && !NILP (XVECTOR_DATA (table)[ch])) return XVECTOR_DATA (table)[ch]; else continue; } else if (CHAR_TABLEP (table) && XCHAR_TABLE_TYPE (table) == CHAR_TABLE_TYPE_CHAR) { return get_char_table (ch, XCHAR_TABLE (table)); } else if (CHAR_TABLEP (table) && XCHAR_TABLE_TYPE (table) == CHAR_TABLE_TYPE_GENERIC) { Lisp_Object gotit = get_char_table (ch, XCHAR_TABLE (table)); if (!NILP (gotit)) return gotit; else continue; } else if (RANGE_TABLEP (table)) { Lisp_Object gotit = Fget_range_table (make_char (ch), table, Qnil); if (!NILP (gotit)) return gotit; else continue; } else abort (); } } /***************************************************************************** * timeouts for animated glyphs * *****************************************************************************/ static Lisp_Object Qglyph_animated_timeout_handler; DEFUN ("glyph-animated-timeout-handler", Fglyph_animated_timeout_handler, 1, 1, 0, /* Callback function for updating animated images. Don't use this. */ (arg)) { CHECK_WEAK_LIST (arg); if (!NILP (XWEAK_LIST_LIST (arg)) && !NILP (XCAR (XWEAK_LIST_LIST (arg)))) { Lisp_Object value = XCAR (XWEAK_LIST_LIST (arg)); if (IMAGE_INSTANCEP (value)) { Lisp_Image_Instance* ii = XIMAGE_INSTANCE (value); if (COLOR_PIXMAP_IMAGE_INSTANCEP (value) && IMAGE_INSTANCE_PIXMAP_MAXSLICE (ii) > 1 && !disable_animated_pixmaps) { /* Increment the index of the image slice we are currently viewing. */ IMAGE_INSTANCE_PIXMAP_SLICE (ii) = (IMAGE_INSTANCE_PIXMAP_SLICE (ii) + 1) % IMAGE_INSTANCE_PIXMAP_MAXSLICE (ii); /* We might need to kick redisplay at this point - but we also might not. */ MARK_DEVICE_FRAMES_GLYPHS_CHANGED (XDEVICE (IMAGE_INSTANCE_DEVICE (ii))); /* Cascade dirtiness so that we can have an animated glyph in a layout for instance. */ set_image_instance_dirty_p (value, 1); } } } return Qnil; } Lisp_Object add_glyph_animated_timeout (EMACS_INT tickms, Lisp_Object image) { Lisp_Object ret = Qnil; if (tickms > 0 && IMAGE_INSTANCEP (image)) { double ms = ((double)tickms) / 1000.0; struct gcpro gcpro1; Lisp_Object holder = make_weak_list (WEAK_LIST_SIMPLE); GCPRO1 (holder); XWEAK_LIST_LIST (holder) = Fcons (image, Qnil); ret = Fadd_timeout (make_float (ms), Qglyph_animated_timeout_handler, holder, make_float (ms)); UNGCPRO; } return ret; } void disable_glyph_animated_timeout (int i) { Lisp_Object id; XSETINT (id, i); Fdisable_timeout (id); } /***************************************************************************** * initialization * *****************************************************************************/ void syms_of_glyphs (void) { INIT_LRECORD_IMPLEMENTATION (glyph); INIT_LRECORD_IMPLEMENTATION (image_instance); /* image instantiators */ DEFSUBR (Fimage_instantiator_format_list); DEFSUBR (Fvalid_image_instantiator_format_p); DEFSUBR (Fset_console_type_image_conversion_list); DEFSUBR (Fconsole_type_image_conversion_list); DEFSUBR (Fupdate_widget_instances); defkeyword (&Q_file, ":file"); defkeyword (&Q_data, ":data"); defkeyword (&Q_face, ":face"); defkeyword (&Q_pixel_height, ":pixel-height"); defkeyword (&Q_pixel_width, ":pixel-width"); #ifdef HAVE_XPM defkeyword (&Q_color_symbols, ":color-symbols"); #endif #ifdef HAVE_WINDOW_SYSTEM defkeyword (&Q_mask_file, ":mask-file"); defkeyword (&Q_mask_data, ":mask-data"); defkeyword (&Q_hotspot_x, ":hotspot-x"); defkeyword (&Q_hotspot_y, ":hotspot-y"); defkeyword (&Q_foreground, ":foreground"); defkeyword (&Q_background, ":background"); #endif /* image specifiers */ DEFSUBR (Fimage_specifier_p); /* Qimage in general.c */ /* image instances */ defsymbol (&Qimage_instancep, "image-instance-p"); defsymbol (&Qnothing_image_instance_p, "nothing-image-instance-p"); defsymbol (&Qtext_image_instance_p, "text-image-instance-p"); defsymbol (&Qmono_pixmap_image_instance_p, "mono-pixmap-image-instance-p"); defsymbol (&Qcolor_pixmap_image_instance_p, "color-pixmap-image-instance-p"); defsymbol (&Qpointer_image_instance_p, "pointer-image-instance-p"); defsymbol (&Qwidget_image_instance_p, "widget-image-instance-p"); defsymbol (&Qsubwindow_image_instance_p, "subwindow-image-instance-p"); defsymbol (&Qlayout_image_instance_p, "layout-image-instance-p"); defsymbol (&Qupdate_widget_instances, "update-widget-instances"); DEFSUBR (Fmake_image_instance); DEFSUBR (Fimage_instance_p); DEFSUBR (Fimage_instance_type); DEFSUBR (Fvalid_image_instance_type_p); DEFSUBR (Fimage_instance_type_list); DEFSUBR (Fimage_instance_name); DEFSUBR (Fimage_instance_string); DEFSUBR (Fimage_instance_file_name); DEFSUBR (Fimage_instance_mask_file_name); DEFSUBR (Fimage_instance_depth); DEFSUBR (Fimage_instance_height); DEFSUBR (Fimage_instance_width); DEFSUBR (Fimage_instance_hotspot_x); DEFSUBR (Fimage_instance_hotspot_y); DEFSUBR (Fimage_instance_foreground); DEFSUBR (Fimage_instance_background); DEFSUBR (Fimage_instance_property); DEFSUBR (Fset_image_instance_property); DEFSUBR (Fcolorize_image_instance); /* subwindows */ DEFSUBR (Fsubwindowp); DEFSUBR (Fimage_instance_subwindow_id); DEFSUBR (Fresize_subwindow); DEFSUBR (Fforce_subwindow_map); /* Qnothing defined as part of the "nothing" image-instantiator type. */ /* Qtext defined in general.c */ defsymbol (&Qmono_pixmap, "mono-pixmap"); defsymbol (&Qcolor_pixmap, "color-pixmap"); /* Qpointer defined in general.c */ /* glyphs */ defsymbol (&Qglyphp, "glyphp"); defsymbol (&Qcontrib_p, "contrib-p"); defsymbol (&Qbaseline, "baseline"); defsymbol (&Qbuffer_glyph_p, "buffer-glyph-p"); defsymbol (&Qpointer_glyph_p, "pointer-glyph-p"); defsymbol (&Qicon_glyph_p, "icon-glyph-p"); defsymbol (&Qconst_glyph_variable, "const-glyph-variable"); DEFSUBR (Fglyph_type); DEFSUBR (Fvalid_glyph_type_p); DEFSUBR (Fglyph_type_list); DEFSUBR (Fglyphp); DEFSUBR (Fmake_glyph_internal); DEFSUBR (Fglyph_width); DEFSUBR (Fglyph_ascent); DEFSUBR (Fglyph_descent); DEFSUBR (Fglyph_height); /* Qbuffer defined in general.c. */ /* Qpointer defined above */ /* Unfortunately, timeout handlers must be lisp functions. This is for animated glyphs. */ defsymbol (&Qglyph_animated_timeout_handler, "glyph-animated-timeout-handler"); DEFSUBR (Fglyph_animated_timeout_handler); /* Errors */ deferror (&Qimage_conversion_error, "image-conversion-error", "image-conversion error", Qio_error); } static const struct lrecord_description image_specifier_description[] = { { XD_LISP_OBJECT, specifier_data_offset + offsetof (struct image_specifier, attachee) }, { XD_LISP_OBJECT, specifier_data_offset + offsetof (struct image_specifier, attachee_property) }, { XD_END } }; void specifier_type_create_image (void) { /* image specifiers */ INITIALIZE_SPECIFIER_TYPE_WITH_DATA (image, "image", "imagep"); SPECIFIER_HAS_METHOD (image, create); SPECIFIER_HAS_METHOD (image, mark); SPECIFIER_HAS_METHOD (image, instantiate); SPECIFIER_HAS_METHOD (image, validate); SPECIFIER_HAS_METHOD (image, after_change); SPECIFIER_HAS_METHOD (image, going_to_add); SPECIFIER_HAS_METHOD (image, copy_instantiator); } void reinit_specifier_type_create_image (void) { REINITIALIZE_SPECIFIER_TYPE (image); } static const struct lrecord_description iike_description_1[] = { { XD_LISP_OBJECT, offsetof (ii_keyword_entry, keyword) }, { XD_END } }; static const struct struct_description iike_description = { sizeof (ii_keyword_entry), iike_description_1 }; static const struct lrecord_description iiked_description_1[] = { XD_DYNARR_DESC (ii_keyword_entry_dynarr, &iike_description), { XD_END } }; static const struct struct_description iiked_description = { sizeof (ii_keyword_entry_dynarr), iiked_description_1 }; static const struct lrecord_description iife_description_1[] = { { XD_LISP_OBJECT, offsetof (image_instantiator_format_entry, symbol) }, { XD_LISP_OBJECT, offsetof (image_instantiator_format_entry, device) }, { XD_STRUCT_PTR, offsetof (image_instantiator_format_entry, meths), 1, &iim_description }, { XD_END } }; static const struct struct_description iife_description = { sizeof (image_instantiator_format_entry), iife_description_1 }; static const struct lrecord_description iifed_description_1[] = { XD_DYNARR_DESC (image_instantiator_format_entry_dynarr, &iife_description), { XD_END } }; static const struct struct_description iifed_description = { sizeof (image_instantiator_format_entry_dynarr), iifed_description_1 }; static const struct lrecord_description iim_description_1[] = { { XD_LISP_OBJECT, offsetof (struct image_instantiator_methods, symbol) }, { XD_LISP_OBJECT, offsetof (struct image_instantiator_methods, device) }, { XD_STRUCT_PTR, offsetof (struct image_instantiator_methods, keywords), 1, &iiked_description }, { XD_STRUCT_PTR, offsetof (struct image_instantiator_methods, consoles), 1, &cted_description }, { XD_END } }; const struct struct_description iim_description = { sizeof(struct image_instantiator_methods), iim_description_1 }; void image_instantiator_format_create (void) { /* image instantiators */ the_image_instantiator_format_entry_dynarr = Dynarr_new (image_instantiator_format_entry); Vimage_instantiator_format_list = Qnil; staticpro (&Vimage_instantiator_format_list); dumpstruct (&the_image_instantiator_format_entry_dynarr, &iifed_description); INITIALIZE_IMAGE_INSTANTIATOR_FORMAT (nothing, "nothing"); IIFORMAT_HAS_METHOD (nothing, possible_dest_types); IIFORMAT_HAS_METHOD (nothing, instantiate); INITIALIZE_IMAGE_INSTANTIATOR_FORMAT (inherit, "inherit"); IIFORMAT_HAS_METHOD (inherit, validate); IIFORMAT_HAS_METHOD (inherit, normalize); IIFORMAT_HAS_METHOD (inherit, possible_dest_types); IIFORMAT_HAS_METHOD (inherit, instantiate); IIFORMAT_VALID_KEYWORD (inherit, Q_face, check_valid_face); INITIALIZE_IMAGE_INSTANTIATOR_FORMAT (string, "string"); IIFORMAT_HAS_METHOD (string, validate); IIFORMAT_HAS_METHOD (string, possible_dest_types); IIFORMAT_HAS_METHOD (string, instantiate); IIFORMAT_VALID_KEYWORD (string, Q_data, check_valid_string); /* Do this so we can set strings. */ INITIALIZE_IMAGE_INSTANTIATOR_FORMAT (text, "text"); IIFORMAT_HAS_METHOD (text, set_property); IIFORMAT_HAS_METHOD (text, query_geometry); INITIALIZE_IMAGE_INSTANTIATOR_FORMAT (formatted_string, "formatted-string"); IIFORMAT_HAS_METHOD (formatted_string, validate); IIFORMAT_HAS_METHOD (formatted_string, possible_dest_types); IIFORMAT_HAS_METHOD (formatted_string, instantiate); IIFORMAT_VALID_KEYWORD (formatted_string, Q_data, check_valid_string); /* subwindows */ INITIALIZE_IMAGE_INSTANTIATOR_FORMAT (subwindow, "subwindow"); IIFORMAT_HAS_METHOD (subwindow, possible_dest_types); IIFORMAT_HAS_METHOD (subwindow, instantiate); IIFORMAT_VALID_KEYWORD (subwindow, Q_pixel_width, check_valid_int); IIFORMAT_VALID_KEYWORD (subwindow, Q_pixel_height, check_valid_int); #ifdef HAVE_WINDOW_SYSTEM INITIALIZE_IMAGE_INSTANTIATOR_FORMAT (xbm, "xbm"); IIFORMAT_HAS_METHOD (xbm, validate); IIFORMAT_HAS_METHOD (xbm, normalize); IIFORMAT_HAS_METHOD (xbm, possible_dest_types); IIFORMAT_VALID_KEYWORD (xbm, Q_data, check_valid_xbm_inline); IIFORMAT_VALID_KEYWORD (xbm, Q_file, check_valid_string); IIFORMAT_VALID_KEYWORD (xbm, Q_mask_data, check_valid_xbm_inline); IIFORMAT_VALID_KEYWORD (xbm, Q_mask_file, check_valid_string); IIFORMAT_VALID_KEYWORD (xbm, Q_hotspot_x, check_valid_int); IIFORMAT_VALID_KEYWORD (xbm, Q_hotspot_y, check_valid_int); IIFORMAT_VALID_KEYWORD (xbm, Q_foreground, check_valid_string); IIFORMAT_VALID_KEYWORD (xbm, Q_background, check_valid_string); #endif /* HAVE_WINDOW_SYSTEM */ #ifdef HAVE_XFACE INITIALIZE_IMAGE_INSTANTIATOR_FORMAT (xface, "xface"); IIFORMAT_HAS_METHOD (xface, validate); IIFORMAT_HAS_METHOD (xface, normalize); IIFORMAT_HAS_METHOD (xface, possible_dest_types); IIFORMAT_VALID_KEYWORD (xface, Q_data, check_valid_string); IIFORMAT_VALID_KEYWORD (xface, Q_file, check_valid_string); IIFORMAT_VALID_KEYWORD (xface, Q_hotspot_x, check_valid_int); IIFORMAT_VALID_KEYWORD (xface, Q_hotspot_y, check_valid_int); IIFORMAT_VALID_KEYWORD (xface, Q_foreground, check_valid_string); IIFORMAT_VALID_KEYWORD (xface, Q_background, check_valid_string); #endif #ifdef HAVE_XPM INITIALIZE_IMAGE_INSTANTIATOR_FORMAT (xpm, "xpm"); IIFORMAT_HAS_METHOD (xpm, validate); IIFORMAT_HAS_METHOD (xpm, normalize); IIFORMAT_HAS_METHOD (xpm, possible_dest_types); IIFORMAT_VALID_KEYWORD (xpm, Q_data, check_valid_string); IIFORMAT_VALID_KEYWORD (xpm, Q_file, check_valid_string); IIFORMAT_VALID_KEYWORD (xpm, Q_color_symbols, check_valid_xpm_color_symbols); #endif /* HAVE_XPM */ } void reinit_vars_of_glyphs (void) { the_expose_ignore_blocktype = Blocktype_new (struct expose_ignore_blocktype); hold_ignored_expose_registration = 0; } void vars_of_glyphs (void) { reinit_vars_of_glyphs (); Vthe_nothing_vector = vector1 (Qnothing); staticpro (&Vthe_nothing_vector); /* image instances */ Vimage_instance_type_list = Fcons (Qnothing, list6 (Qtext, Qmono_pixmap, Qcolor_pixmap, Qpointer, Qsubwindow, Qwidget)); staticpro (&Vimage_instance_type_list); /* glyphs */ Vglyph_type_list = list3 (Qbuffer, Qpointer, Qicon); staticpro (&Vglyph_type_list); /* The octal-escape glyph, control-arrow-glyph and invisible-text-glyph are completely initialized in glyphs.el */ DEFVAR_LISP ("octal-escape-glyph", &Voctal_escape_glyph /* What to prefix character codes displayed in octal with. */); Voctal_escape_glyph = allocate_glyph (GLYPH_BUFFER, redisplay_glyph_changed); DEFVAR_LISP ("control-arrow-glyph", &Vcontrol_arrow_glyph /* What to use as an arrow for control characters. */); Vcontrol_arrow_glyph = allocate_glyph (GLYPH_BUFFER, redisplay_glyph_changed); DEFVAR_LISP ("invisible-text-glyph", &Vinvisible_text_glyph /* What to use to indicate the presence of invisible text. This is the glyph that is displayed when an ellipsis is called for \(see `selective-display-ellipses' and `buffer-invisibility-spec'). Normally this is three dots ("..."). */); Vinvisible_text_glyph = allocate_glyph (GLYPH_BUFFER, redisplay_glyph_changed); /* Partially initialized in glyphs.el */ DEFVAR_LISP ("hscroll-glyph", &Vhscroll_glyph /* What to display at the beginning of horizontally scrolled lines. */); Vhscroll_glyph = allocate_glyph (GLYPH_BUFFER, redisplay_glyph_changed); #ifdef HAVE_WINDOW_SYSTEM Fprovide (Qxbm); #endif #ifdef HAVE_XPM Fprovide (Qxpm); DEFVAR_LISP ("xpm-color-symbols", &Vxpm_color_symbols /* Definitions of logical color-names used when reading XPM files. Elements of this list should be of the form (COLOR-NAME FORM-TO-EVALUATE). The COLOR-NAME should be a string, which is the name of the color to define; the FORM should evaluate to a `color' specifier object, or a string to be passed to `make-color-instance'. If a loaded XPM file references a symbolic color called COLOR-NAME, it will display as the computed color instead. The default value of this variable defines the logical color names \"foreground\" and \"background\" to be the colors of the `default' face. */ ); Vxpm_color_symbols = Qnil; /* initialized in x-faces.el */ #endif /* HAVE_XPM */ #ifdef HAVE_XFACE Fprovide (Qxface); #endif DEFVAR_BOOL ("disable-animated-pixmaps", &disable_animated_pixmaps /* Whether animated pixmaps should be animated. Default is t. */); disable_animated_pixmaps = 0; } void specifier_vars_of_glyphs (void) { /* #### Can we GC here? The set_specifier_* calls definitely need */ /* protection. */ /* display tables */ DEFVAR_SPECIFIER ("current-display-table", &Vcurrent_display_table /* *The display table currently in use. This is a specifier; use `set-specifier' to change it. The display table is a vector created with `make-display-table'. The 256 elements control how to display each possible text character. Each value should be a string, a glyph, a vector or nil. If a value is a vector it must be composed only of strings and glyphs. nil means display the character in the default fashion. Faces can have their own, overriding display table. */ ); Vcurrent_display_table = Fmake_specifier (Qdisplay_table); set_specifier_fallback (Vcurrent_display_table, list1 (Fcons (Qnil, Qnil))); set_specifier_caching (Vcurrent_display_table, offsetof (struct window, display_table), some_window_value_changed, 0, 0); } void complex_vars_of_glyphs (void) { /* Partially initialized in glyphs-x.c, glyphs.el */ DEFVAR_LISP ("truncation-glyph", &Vtruncation_glyph /* What to display at the end of truncated lines. */ ); Vtruncation_glyph = allocate_glyph (GLYPH_BUFFER, redisplay_glyph_changed); /* Partially initialized in glyphs-x.c, glyphs.el */ DEFVAR_LISP ("continuation-glyph", &Vcontinuation_glyph /* What to display at the end of wrapped lines. */ ); Vcontinuation_glyph = allocate_glyph (GLYPH_BUFFER, redisplay_glyph_changed); /* Partially initialized in glyphs-x.c, glyphs.el */ DEFVAR_LISP ("xemacs-logo", &Vxemacs_logo /* The glyph used to display the XEmacs logo at startup. */ ); Vxemacs_logo = allocate_glyph (GLYPH_BUFFER, 0); }