; Add comments about potential future Jansson flags
[emacs.git] / src / image.c
blobc1c1671899b635725d5211181a376980197297ca
1 /* Functions for image support on window system.
3 Copyright (C) 1989, 1992-2017 Free Software Foundation, Inc.
5 This file is part of GNU Emacs.
7 GNU Emacs is free software: you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by
9 the Free Software Foundation, either version 3 of the License, or (at
10 your option) any later version.
12 GNU Emacs is distributed in the hope that it will be useful,
13 but WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 GNU General Public License for more details.
17 You should have received a copy of the GNU General Public License
18 along with GNU Emacs. If not, see <https://www.gnu.org/licenses/>. */
20 #include <config.h>
22 #include <fcntl.h>
23 #include <unistd.h>
25 /* Include this before including <setjmp.h> to work around bugs with
26 older libpng; see Bug#17429. */
27 #if defined HAVE_PNG && !defined HAVE_NS
28 # include <png.h>
29 #endif
31 #include <setjmp.h>
33 #include <c-ctype.h>
34 #include <flexmember.h>
36 #include "lisp.h"
37 #include "frame.h"
38 #include "process.h"
39 #include "window.h"
40 #include "buffer.h"
41 #include "dispextern.h"
42 #include "blockinput.h"
43 #include "sysstdio.h"
44 #include "systime.h"
45 #include <epaths.h>
46 #include "coding.h"
47 #include "termhooks.h"
48 #include "font.h"
50 #ifdef HAVE_SYS_STAT_H
51 #include <sys/stat.h>
52 #endif /* HAVE_SYS_STAT_H */
54 #ifdef HAVE_SYS_TYPES_H
55 #include <sys/types.h>
56 #endif /* HAVE_SYS_TYPES_H */
58 #ifdef HAVE_WINDOW_SYSTEM
59 #include TERM_HEADER
60 #endif /* HAVE_WINDOW_SYSTEM */
62 /* Work around GCC bug 54561. */
63 #if GNUC_PREREQ (4, 3, 0)
64 # pragma GCC diagnostic ignored "-Wclobbered"
65 #endif
67 #ifdef HAVE_X_WINDOWS
68 typedef struct x_bitmap_record Bitmap_Record;
69 #define GET_PIXEL(ximg, x, y) XGetPixel (ximg, x, y)
70 #define NO_PIXMAP None
72 #define PIX_MASK_RETAIN 0
73 #define PIX_MASK_DRAW 1
74 #endif /* HAVE_X_WINDOWS */
76 #ifdef HAVE_NTGUI
78 /* We need (or want) w32.h only when we're _not_ compiling for Cygwin. */
79 #ifdef WINDOWSNT
80 # include "w32.h"
81 #endif
83 typedef struct w32_bitmap_record Bitmap_Record;
84 #define GET_PIXEL(ximg, x, y) GetPixel (ximg, x, y)
85 #define NO_PIXMAP 0
87 #define PIX_MASK_RETAIN 0
88 #define PIX_MASK_DRAW 1
90 #define x_defined_color w32_defined_color
92 #endif /* HAVE_NTGUI */
94 #ifdef HAVE_NS
95 typedef struct ns_bitmap_record Bitmap_Record;
97 #define GET_PIXEL(ximg, x, y) XGetPixel (ximg, x, y)
98 #define NO_PIXMAP 0
100 #define PIX_MASK_RETAIN 0
102 #define x_defined_color(f, name, color_def, alloc) \
103 ns_defined_color (f, name, color_def, alloc, 0)
104 #endif /* HAVE_NS */
106 #if (defined HAVE_X_WINDOWS \
107 && ! (defined HAVE_NTGUI || defined USE_CAIRO || defined HAVE_NS))
108 /* W32_TODO : Color tables on W32. */
109 # define COLOR_TABLE_SUPPORT 1
110 #endif
112 static void x_disable_image (struct frame *, struct image *);
113 static void x_edge_detection (struct frame *, struct image *, Lisp_Object,
114 Lisp_Object);
116 static void init_color_table (void);
117 static unsigned long lookup_rgb_color (struct frame *f, int r, int g, int b);
118 #ifdef COLOR_TABLE_SUPPORT
119 static void free_color_table (void);
120 static unsigned long *colors_in_color_table (int *n);
121 #endif
123 /* Code to deal with bitmaps. Bitmaps are referenced by their bitmap
124 id, which is just an int that this section returns. Bitmaps are
125 reference counted so they can be shared among frames.
127 Bitmap indices are guaranteed to be > 0, so a negative number can
128 be used to indicate no bitmap.
130 If you use x_create_bitmap_from_data, then you must keep track of
131 the bitmaps yourself. That is, creating a bitmap from the same
132 data more than once will not be caught. */
134 #ifdef HAVE_NS
135 /* Use with images created by ns_image_for_XPM. */
136 static unsigned long
137 XGetPixel (XImagePtr ximage, int x, int y)
139 return ns_get_pixel (ximage, x, y);
142 /* Use with images created by ns_image_for_XPM; alpha set to 1;
143 pixel is assumed to be in RGB form. */
144 static void
145 XPutPixel (XImagePtr ximage, int x, int y, unsigned long pixel)
147 ns_put_pixel (ximage, x, y, pixel);
149 #endif /* HAVE_NS */
152 /* Functions to access the contents of a bitmap, given an id. */
154 #ifdef HAVE_X_WINDOWS
155 static int
156 x_bitmap_height (struct frame *f, ptrdiff_t id)
158 return FRAME_DISPLAY_INFO (f)->bitmaps[id - 1].height;
161 static int
162 x_bitmap_width (struct frame *f, ptrdiff_t id)
164 return FRAME_DISPLAY_INFO (f)->bitmaps[id - 1].width;
166 #endif
168 #if defined (HAVE_X_WINDOWS) || defined (HAVE_NTGUI)
169 ptrdiff_t
170 x_bitmap_pixmap (struct frame *f, ptrdiff_t id)
172 /* HAVE_NTGUI needs the explicit cast here. */
173 return (ptrdiff_t) FRAME_DISPLAY_INFO (f)->bitmaps[id - 1].pixmap;
175 #endif
177 #ifdef HAVE_X_WINDOWS
179 x_bitmap_mask (struct frame *f, ptrdiff_t id)
181 return FRAME_DISPLAY_INFO (f)->bitmaps[id - 1].mask;
183 #endif
185 /* Allocate a new bitmap record. Returns index of new record. */
187 static ptrdiff_t
188 x_allocate_bitmap_record (struct frame *f)
190 Display_Info *dpyinfo = FRAME_DISPLAY_INFO (f);
191 ptrdiff_t i;
193 if (dpyinfo->bitmaps_last < dpyinfo->bitmaps_size)
194 return ++dpyinfo->bitmaps_last;
196 for (i = 0; i < dpyinfo->bitmaps_size; ++i)
197 if (dpyinfo->bitmaps[i].refcount == 0)
198 return i + 1;
200 dpyinfo->bitmaps =
201 xpalloc (dpyinfo->bitmaps, &dpyinfo->bitmaps_size,
202 10, -1, sizeof *dpyinfo->bitmaps);
203 return ++dpyinfo->bitmaps_last;
206 /* Add one reference to the reference count of the bitmap with id ID. */
208 void
209 x_reference_bitmap (struct frame *f, ptrdiff_t id)
211 ++FRAME_DISPLAY_INFO (f)->bitmaps[id - 1].refcount;
214 /* Create a bitmap for frame F from a HEIGHT x WIDTH array of bits at BITS. */
216 ptrdiff_t
217 x_create_bitmap_from_data (struct frame *f, char *bits, unsigned int width, unsigned int height)
219 Display_Info *dpyinfo = FRAME_DISPLAY_INFO (f);
220 ptrdiff_t id;
222 #ifdef HAVE_X_WINDOWS
223 Pixmap bitmap;
224 bitmap = XCreateBitmapFromData (FRAME_X_DISPLAY (f), FRAME_X_DRAWABLE (f),
225 bits, width, height);
226 if (! bitmap)
227 return -1;
228 #endif /* HAVE_X_WINDOWS */
230 #ifdef HAVE_NTGUI
231 Lisp_Object frame UNINIT; /* The value is not used. */
232 Pixmap bitmap;
233 bitmap = CreateBitmap (width, height,
234 FRAME_DISPLAY_INFO (XFRAME (frame))->n_planes,
235 FRAME_DISPLAY_INFO (XFRAME (frame))->n_cbits,
236 bits);
237 if (! bitmap)
238 return -1;
239 #endif /* HAVE_NTGUI */
241 #ifdef HAVE_NS
242 void *bitmap = ns_image_from_XBM (bits, width, height, 0, 0);
243 if (!bitmap)
244 return -1;
245 #endif
247 id = x_allocate_bitmap_record (f);
249 #ifdef HAVE_NS
250 dpyinfo->bitmaps[id - 1].img = bitmap;
251 dpyinfo->bitmaps[id - 1].depth = 1;
252 #endif
254 dpyinfo->bitmaps[id - 1].file = NULL;
255 dpyinfo->bitmaps[id - 1].height = height;
256 dpyinfo->bitmaps[id - 1].width = width;
257 dpyinfo->bitmaps[id - 1].refcount = 1;
259 #ifdef HAVE_X_WINDOWS
260 dpyinfo->bitmaps[id - 1].pixmap = bitmap;
261 dpyinfo->bitmaps[id - 1].have_mask = false;
262 dpyinfo->bitmaps[id - 1].depth = 1;
263 #endif /* HAVE_X_WINDOWS */
265 #ifdef HAVE_NTGUI
266 dpyinfo->bitmaps[id - 1].pixmap = bitmap;
267 dpyinfo->bitmaps[id - 1].hinst = NULL;
268 dpyinfo->bitmaps[id - 1].depth = 1;
269 #endif /* HAVE_NTGUI */
271 return id;
274 /* Create bitmap from file FILE for frame F. */
276 ptrdiff_t
277 x_create_bitmap_from_file (struct frame *f, Lisp_Object file)
279 #ifdef HAVE_NTGUI
280 return -1; /* W32_TODO : bitmap support */
281 #else
282 Display_Info *dpyinfo = FRAME_DISPLAY_INFO (f);
283 #endif
285 #ifdef HAVE_NS
286 ptrdiff_t id;
287 void *bitmap = ns_image_from_file (file);
289 if (!bitmap)
290 return -1;
293 id = x_allocate_bitmap_record (f);
294 dpyinfo->bitmaps[id - 1].img = bitmap;
295 dpyinfo->bitmaps[id - 1].refcount = 1;
296 dpyinfo->bitmaps[id - 1].file = xlispstrdup (file);
297 dpyinfo->bitmaps[id - 1].depth = 1;
298 dpyinfo->bitmaps[id - 1].height = ns_image_width (bitmap);
299 dpyinfo->bitmaps[id - 1].width = ns_image_height (bitmap);
300 return id;
301 #endif
303 #ifdef HAVE_X_WINDOWS
304 unsigned int width, height;
305 Pixmap bitmap;
306 int xhot, yhot, result;
307 ptrdiff_t id;
308 Lisp_Object found;
309 char *filename;
311 /* Look for an existing bitmap with the same name. */
312 for (id = 0; id < dpyinfo->bitmaps_last; ++id)
314 if (dpyinfo->bitmaps[id].refcount
315 && dpyinfo->bitmaps[id].file
316 && !strcmp (dpyinfo->bitmaps[id].file, SSDATA (file)))
318 ++dpyinfo->bitmaps[id].refcount;
319 return id + 1;
323 /* Search bitmap-file-path for the file, if appropriate. */
324 if (openp (Vx_bitmap_file_path, file, Qnil, &found,
325 make_number (R_OK), false)
326 < 0)
327 return -1;
329 filename = SSDATA (found);
331 result = XReadBitmapFile (FRAME_X_DISPLAY (f), FRAME_X_DRAWABLE (f),
332 filename, &width, &height, &bitmap, &xhot, &yhot);
333 if (result != BitmapSuccess)
334 return -1;
336 id = x_allocate_bitmap_record (f);
337 dpyinfo->bitmaps[id - 1].pixmap = bitmap;
338 dpyinfo->bitmaps[id - 1].have_mask = false;
339 dpyinfo->bitmaps[id - 1].refcount = 1;
340 dpyinfo->bitmaps[id - 1].file = xlispstrdup (file);
341 dpyinfo->bitmaps[id - 1].depth = 1;
342 dpyinfo->bitmaps[id - 1].height = height;
343 dpyinfo->bitmaps[id - 1].width = width;
345 return id;
346 #endif /* HAVE_X_WINDOWS */
349 /* Free bitmap B. */
351 static void
352 free_bitmap_record (Display_Info *dpyinfo, Bitmap_Record *bm)
354 #ifdef HAVE_X_WINDOWS
355 XFreePixmap (dpyinfo->display, bm->pixmap);
356 if (bm->have_mask)
357 XFreePixmap (dpyinfo->display, bm->mask);
358 #endif /* HAVE_X_WINDOWS */
360 #ifdef HAVE_NTGUI
361 DeleteObject (bm->pixmap);
362 #endif /* HAVE_NTGUI */
364 #ifdef HAVE_NS
365 ns_release_object (bm->img);
366 #endif
368 if (bm->file)
370 xfree (bm->file);
371 bm->file = NULL;
375 /* Remove reference to bitmap with id number ID. */
377 void
378 x_destroy_bitmap (struct frame *f, ptrdiff_t id)
380 Display_Info *dpyinfo = FRAME_DISPLAY_INFO (f);
382 if (id > 0)
384 Bitmap_Record *bm = &dpyinfo->bitmaps[id - 1];
386 if (--bm->refcount == 0)
388 block_input ();
389 free_bitmap_record (dpyinfo, bm);
390 unblock_input ();
395 /* Free all the bitmaps for the display specified by DPYINFO. */
397 void
398 x_destroy_all_bitmaps (Display_Info *dpyinfo)
400 ptrdiff_t i;
401 Bitmap_Record *bm = dpyinfo->bitmaps;
403 for (i = 0; i < dpyinfo->bitmaps_last; i++, bm++)
404 if (bm->refcount > 0)
405 free_bitmap_record (dpyinfo, bm);
407 dpyinfo->bitmaps_last = 0;
410 static bool x_create_x_image_and_pixmap (struct frame *, int, int, int,
411 XImagePtr *, Pixmap *);
412 static void x_destroy_x_image (XImagePtr ximg);
414 #ifdef HAVE_NTGUI
415 static XImagePtr_or_DC image_get_x_image_or_dc (struct frame *, struct image *,
416 bool, HGDIOBJ *);
417 static void image_unget_x_image_or_dc (struct image *, bool, XImagePtr_or_DC,
418 HGDIOBJ);
419 #else
420 static XImagePtr image_get_x_image (struct frame *, struct image *, bool);
421 static void image_unget_x_image (struct image *, bool, XImagePtr);
422 #define image_get_x_image_or_dc(f, img, mask_p, dummy) \
423 image_get_x_image (f, img, mask_p)
424 #define image_unget_x_image_or_dc(img, mask_p, ximg, dummy) \
425 image_unget_x_image (img, mask_p, ximg)
426 #endif
428 #ifdef HAVE_X_WINDOWS
430 static void image_sync_to_pixmaps (struct frame *, struct image *);
432 /* Useful functions defined in the section
433 `Image type independent image structures' below. */
435 static unsigned long four_corners_best (XImagePtr ximg,
436 int *corners,
437 unsigned long width,
438 unsigned long height);
441 /* Create a mask of a bitmap. Note is this not a perfect mask.
442 It's nicer with some borders in this context */
444 void
445 x_create_bitmap_mask (struct frame *f, ptrdiff_t id)
447 Pixmap pixmap, mask;
448 XImagePtr ximg, mask_img;
449 unsigned long width, height;
450 bool result;
451 unsigned long bg;
452 unsigned long x, y, xp, xm, yp, ym;
453 GC gc;
455 Display_Info *dpyinfo = FRAME_DISPLAY_INFO (f);
457 if (!(id > 0))
458 return;
460 pixmap = x_bitmap_pixmap (f, id);
461 width = x_bitmap_width (f, id);
462 height = x_bitmap_height (f, id);
464 block_input ();
465 ximg = XGetImage (FRAME_X_DISPLAY (f), pixmap, 0, 0, width, height,
466 ~0, ZPixmap);
468 if (!ximg)
470 unblock_input ();
471 return;
474 result = x_create_x_image_and_pixmap (f, width, height, 1, &mask_img, &mask);
476 unblock_input ();
477 if (!result)
479 XDestroyImage (ximg);
480 return;
483 bg = four_corners_best (ximg, NULL, width, height);
485 for (y = 0; y < ximg->height; ++y)
487 for (x = 0; x < ximg->width; ++x)
489 xp = x != ximg->width - 1 ? x + 1 : 0;
490 xm = x != 0 ? x - 1 : ximg->width - 1;
491 yp = y != ximg->height - 1 ? y + 1 : 0;
492 ym = y != 0 ? y - 1 : ximg->height - 1;
493 if (XGetPixel (ximg, x, y) == bg
494 && XGetPixel (ximg, x, yp) == bg
495 && XGetPixel (ximg, x, ym) == bg
496 && XGetPixel (ximg, xp, y) == bg
497 && XGetPixel (ximg, xp, yp) == bg
498 && XGetPixel (ximg, xp, ym) == bg
499 && XGetPixel (ximg, xm, y) == bg
500 && XGetPixel (ximg, xm, yp) == bg
501 && XGetPixel (ximg, xm, ym) == bg)
502 XPutPixel (mask_img, x, y, 0);
503 else
504 XPutPixel (mask_img, x, y, 1);
508 eassert (input_blocked_p ());
509 gc = XCreateGC (FRAME_X_DISPLAY (f), mask, 0, NULL);
510 XPutImage (FRAME_X_DISPLAY (f), mask, gc, mask_img, 0, 0, 0, 0,
511 width, height);
512 XFreeGC (FRAME_X_DISPLAY (f), gc);
514 dpyinfo->bitmaps[id - 1].have_mask = true;
515 dpyinfo->bitmaps[id - 1].mask = mask;
517 XDestroyImage (ximg);
518 x_destroy_x_image (mask_img);
521 #endif /* HAVE_X_WINDOWS */
523 /***********************************************************************
524 Image types
525 ***********************************************************************/
527 /* List of supported image types. Use define_image_type to add new
528 types. Use lookup_image_type to find a type for a given symbol. */
530 static struct image_type *image_types;
532 /* Forward function prototypes. */
534 static struct image_type *lookup_image_type (Lisp_Object);
535 static void x_laplace (struct frame *, struct image *);
536 static void x_emboss (struct frame *, struct image *);
537 static void x_build_heuristic_mask (struct frame *, struct image *,
538 Lisp_Object);
539 #ifdef WINDOWSNT
540 #define CACHE_IMAGE_TYPE(type, status) \
541 do { Vlibrary_cache = Fcons (Fcons (type, status), Vlibrary_cache); } while (0)
542 #else
543 #define CACHE_IMAGE_TYPE(type, status)
544 #endif
546 #define ADD_IMAGE_TYPE(type) \
547 do { Vimage_types = Fcons (type, Vimage_types); } while (0)
549 /* Define a new image type from TYPE. This adds a copy of TYPE to
550 image_types and caches the loading status of TYPE. */
552 static struct image_type *
553 define_image_type (struct image_type *type)
555 struct image_type *p = NULL;
556 int new_type = type->type;
557 bool type_valid = true;
559 block_input ();
561 for (p = image_types; p; p = p->next)
562 if (p->type == new_type)
563 goto done;
565 if (type->init)
567 #if defined HAVE_NTGUI && defined WINDOWSNT
568 /* If we failed to load the library before, don't try again. */
569 Lisp_Object tested = Fassq (builtin_lisp_symbol (new_type),
570 Vlibrary_cache);
571 if (CONSP (tested) && NILP (XCDR (tested)))
572 type_valid = false;
573 else
574 #endif
576 type_valid = type->init ();
577 CACHE_IMAGE_TYPE (builtin_lisp_symbol (new_type),
578 type_valid ? Qt : Qnil);
582 if (type_valid)
584 /* Make a copy of TYPE to avoid a bus error in a dumped Emacs.
585 The initialized data segment is read-only. */
586 p = xmalloc (sizeof *p);
587 *p = *type;
588 p->next = image_types;
589 image_types = p;
592 done:
593 unblock_input ();
594 return p;
598 /* Value is true if OBJECT is a valid Lisp image specification. A
599 valid image specification is a list whose car is the symbol
600 `image', and whose rest is a property list. The property list must
601 contain a value for key `:type'. That value must be the name of a
602 supported image type. The rest of the property list depends on the
603 image type. */
605 bool
606 valid_image_p (Lisp_Object object)
608 bool valid_p = 0;
610 if (IMAGEP (object))
612 Lisp_Object tem;
614 for (tem = XCDR (object); CONSP (tem); tem = XCDR (tem))
615 if (EQ (XCAR (tem), QCtype))
617 tem = XCDR (tem);
618 if (CONSP (tem) && SYMBOLP (XCAR (tem)))
620 struct image_type *type;
621 type = lookup_image_type (XCAR (tem));
622 if (type)
623 valid_p = type->valid_p (object);
626 break;
630 return valid_p;
634 /* Log error message with format string FORMAT and trailing arguments.
635 Signaling an error, e.g. when an image cannot be loaded, is not a
636 good idea because this would interrupt redisplay, and the error
637 message display would lead to another redisplay. This function
638 therefore simply displays a message. */
640 static void
641 image_error (const char *format, ...)
643 va_list ap;
644 va_start (ap, format);
645 vadd_to_log (format, ap);
646 va_end (ap);
649 static void
650 image_size_error (void)
652 image_error ("Invalid image size (see `max-image-size')");
656 /***********************************************************************
657 Image specifications
658 ***********************************************************************/
660 enum image_value_type
662 IMAGE_DONT_CHECK_VALUE_TYPE,
663 IMAGE_STRING_VALUE,
664 IMAGE_STRING_OR_NIL_VALUE,
665 IMAGE_SYMBOL_VALUE,
666 IMAGE_POSITIVE_INTEGER_VALUE,
667 IMAGE_NON_NEGATIVE_INTEGER_VALUE_OR_PAIR,
668 IMAGE_NON_NEGATIVE_INTEGER_VALUE,
669 IMAGE_ASCENT_VALUE,
670 IMAGE_INTEGER_VALUE,
671 IMAGE_FUNCTION_VALUE,
672 IMAGE_NUMBER_VALUE,
673 IMAGE_BOOL_VALUE
676 /* Structure used when parsing image specifications. */
678 struct image_keyword
680 /* Name of keyword. */
681 const char *name;
683 /* The type of value allowed. */
684 enum image_value_type type;
686 /* True means key must be present. */
687 bool mandatory_p;
689 /* Used to recognize duplicate keywords in a property list. */
690 int count;
692 /* The value that was found. */
693 Lisp_Object value;
697 /* Parse image spec SPEC according to KEYWORDS. A valid image spec
698 has the format (image KEYWORD VALUE ...). One of the keyword/
699 value pairs must be `:type TYPE'. KEYWORDS is a vector of
700 image_keywords structures of size NKEYWORDS describing other
701 allowed keyword/value pairs. Value is true if SPEC is valid. */
703 static bool
704 parse_image_spec (Lisp_Object spec, struct image_keyword *keywords,
705 int nkeywords, Lisp_Object type)
707 int i;
708 Lisp_Object plist;
710 if (!IMAGEP (spec))
711 return 0;
713 plist = XCDR (spec);
714 while (CONSP (plist))
716 Lisp_Object key, value;
718 /* First element of a pair must be a symbol. */
719 key = XCAR (plist);
720 plist = XCDR (plist);
721 if (!SYMBOLP (key))
722 return 0;
724 /* There must follow a value. */
725 if (!CONSP (plist))
726 return 0;
727 value = XCAR (plist);
728 plist = XCDR (plist);
730 /* Find key in KEYWORDS. Error if not found. */
731 for (i = 0; i < nkeywords; ++i)
732 if (strcmp (keywords[i].name, SSDATA (SYMBOL_NAME (key))) == 0)
733 break;
735 if (i == nkeywords)
736 continue;
738 /* Record that we recognized the keyword. If a keywords
739 was found more than once, it's an error. */
740 keywords[i].value = value;
741 if (keywords[i].count > 1)
742 return 0;
743 ++keywords[i].count;
745 /* Check type of value against allowed type. */
746 switch (keywords[i].type)
748 case IMAGE_STRING_VALUE:
749 if (!STRINGP (value))
750 return 0;
751 break;
753 case IMAGE_STRING_OR_NIL_VALUE:
754 if (!STRINGP (value) && !NILP (value))
755 return 0;
756 break;
758 case IMAGE_SYMBOL_VALUE:
759 if (!SYMBOLP (value))
760 return 0;
761 break;
763 case IMAGE_POSITIVE_INTEGER_VALUE:
764 if (! RANGED_INTEGERP (1, value, INT_MAX))
765 return 0;
766 break;
768 case IMAGE_NON_NEGATIVE_INTEGER_VALUE_OR_PAIR:
769 if (RANGED_INTEGERP (0, value, INT_MAX))
770 break;
771 if (CONSP (value)
772 && RANGED_INTEGERP (0, XCAR (value), INT_MAX)
773 && RANGED_INTEGERP (0, XCDR (value), INT_MAX))
774 break;
775 return 0;
777 case IMAGE_ASCENT_VALUE:
778 if (SYMBOLP (value) && EQ (value, Qcenter))
779 break;
780 else if (RANGED_INTEGERP (0, value, 100))
781 break;
782 return 0;
784 case IMAGE_NON_NEGATIVE_INTEGER_VALUE:
785 /* Unlike the other integer-related cases, this one does not
786 verify that VALUE fits in 'int'. This is because callers
787 want EMACS_INT. */
788 if (!INTEGERP (value) || XINT (value) < 0)
789 return 0;
790 break;
792 case IMAGE_DONT_CHECK_VALUE_TYPE:
793 break;
795 case IMAGE_FUNCTION_VALUE:
796 value = indirect_function (value);
797 if (FUNCTIONP (value))
798 break;
799 return 0;
801 case IMAGE_NUMBER_VALUE:
802 if (! NUMBERP (value))
803 return 0;
804 break;
806 case IMAGE_INTEGER_VALUE:
807 if (! TYPE_RANGED_INTEGERP (int, value))
808 return 0;
809 break;
811 case IMAGE_BOOL_VALUE:
812 if (!NILP (value) && !EQ (value, Qt))
813 return 0;
814 break;
816 default:
817 emacs_abort ();
818 break;
821 if (EQ (key, QCtype) && !EQ (type, value))
822 return 0;
825 /* Check that all mandatory fields are present. */
826 for (i = 0; i < nkeywords; ++i)
827 if (keywords[i].mandatory_p && keywords[i].count == 0)
828 return 0;
830 return NILP (plist);
834 /* Return the value of KEY in image specification SPEC. Value is nil
835 if KEY is not present in SPEC. Set *FOUND depending on whether KEY
836 was found in SPEC. */
838 static Lisp_Object
839 image_spec_value (Lisp_Object spec, Lisp_Object key, bool *found)
841 Lisp_Object tail;
843 eassert (valid_image_p (spec));
845 for (tail = XCDR (spec);
846 CONSP (tail) && CONSP (XCDR (tail));
847 tail = XCDR (XCDR (tail)))
849 if (EQ (XCAR (tail), key))
851 if (found)
852 *found = 1;
853 return XCAR (XCDR (tail));
857 if (found)
858 *found = 0;
859 return Qnil;
863 DEFUN ("image-size", Fimage_size, Simage_size, 1, 3, 0,
864 doc: /* Return the size of image SPEC as pair (WIDTH . HEIGHT).
865 PIXELS non-nil means return the size in pixels, otherwise return the
866 size in canonical character units.
867 FRAME is the frame on which the image will be displayed. FRAME nil
868 or omitted means use the selected frame. */)
869 (Lisp_Object spec, Lisp_Object pixels, Lisp_Object frame)
871 Lisp_Object size;
873 size = Qnil;
874 if (valid_image_p (spec))
876 struct frame *f = decode_window_system_frame (frame);
877 ptrdiff_t id = lookup_image (f, spec);
878 struct image *img = IMAGE_FROM_ID (f, id);
879 int width = img->width + 2 * img->hmargin;
880 int height = img->height + 2 * img->vmargin;
882 if (NILP (pixels))
883 size = Fcons (make_float ((double) width / FRAME_COLUMN_WIDTH (f)),
884 make_float ((double) height / FRAME_LINE_HEIGHT (f)));
885 else
886 size = Fcons (make_number (width), make_number (height));
888 else
889 error ("Invalid image specification");
891 return size;
895 DEFUN ("image-mask-p", Fimage_mask_p, Simage_mask_p, 1, 2, 0,
896 doc: /* Return t if image SPEC has a mask bitmap.
897 FRAME is the frame on which the image will be displayed. FRAME nil
898 or omitted means use the selected frame. */)
899 (Lisp_Object spec, Lisp_Object frame)
901 Lisp_Object mask;
903 mask = Qnil;
904 if (valid_image_p (spec))
906 struct frame *f = decode_window_system_frame (frame);
907 ptrdiff_t id = lookup_image (f, spec);
908 struct image *img = IMAGE_FROM_ID (f, id);
909 if (img->mask)
910 mask = Qt;
912 else
913 error ("Invalid image specification");
915 return mask;
918 DEFUN ("image-metadata", Fimage_metadata, Simage_metadata, 1, 2, 0,
919 doc: /* Return metadata for image SPEC.
920 FRAME is the frame on which the image will be displayed. FRAME nil
921 or omitted means use the selected frame. */)
922 (Lisp_Object spec, Lisp_Object frame)
924 Lisp_Object ext;
926 ext = Qnil;
927 if (valid_image_p (spec))
929 struct frame *f = decode_window_system_frame (frame);
930 ptrdiff_t id = lookup_image (f, spec);
931 struct image *img = IMAGE_FROM_ID (f, id);
932 ext = img->lisp_data;
935 return ext;
939 /***********************************************************************
940 Image type independent image structures
941 ***********************************************************************/
943 #define MAX_IMAGE_SIZE 10.0
944 /* Allocate and return a new image structure for image specification
945 SPEC. SPEC has a hash value of HASH. */
947 static struct image *
948 make_image (Lisp_Object spec, EMACS_UINT hash)
950 struct image *img = xzalloc (sizeof *img);
951 Lisp_Object file = image_spec_value (spec, QCfile, NULL);
953 eassert (valid_image_p (spec));
954 img->dependencies = NILP (file) ? Qnil : list1 (file);
955 img->type = lookup_image_type (image_spec_value (spec, QCtype, NULL));
956 eassert (img->type != NULL);
957 img->spec = spec;
958 img->lisp_data = Qnil;
959 img->ascent = DEFAULT_IMAGE_ASCENT;
960 img->hash = hash;
961 img->corners[BOT_CORNER] = -1; /* Full image */
962 return img;
966 /* Free image IMG which was used on frame F, including its resources. */
968 static void
969 free_image (struct frame *f, struct image *img)
971 if (img)
973 struct image_cache *c = FRAME_IMAGE_CACHE (f);
975 /* Remove IMG from the hash table of its cache. */
976 if (img->prev)
977 img->prev->next = img->next;
978 else
979 c->buckets[img->hash % IMAGE_CACHE_BUCKETS_SIZE] = img->next;
981 if (img->next)
982 img->next->prev = img->prev;
984 c->images[img->id] = NULL;
986 /* Windows NT redefines 'free', but in this file, we need to
987 avoid the redefinition. */
988 #ifdef WINDOWSNT
989 #undef free
990 #endif
991 /* Free resources, then free IMG. */
992 img->type->free (f, img);
993 xfree (img);
997 /* Return true if the given widths and heights are valid for display. */
999 static bool
1000 check_image_size (struct frame *f, int width, int height)
1002 int w, h;
1004 if (width <= 0 || height <= 0)
1005 return 0;
1007 if (INTEGERP (Vmax_image_size))
1008 return (width <= XINT (Vmax_image_size)
1009 && height <= XINT (Vmax_image_size));
1010 else if (FLOATP (Vmax_image_size))
1012 if (f != NULL)
1014 w = FRAME_PIXEL_WIDTH (f);
1015 h = FRAME_PIXEL_HEIGHT (f);
1017 else
1018 w = h = 1024; /* Arbitrary size for unknown frame. */
1019 return (width <= XFLOAT_DATA (Vmax_image_size) * w
1020 && height <= XFLOAT_DATA (Vmax_image_size) * h);
1022 else
1023 return 1;
1026 /* Prepare image IMG for display on frame F. Must be called before
1027 drawing an image. */
1029 void
1030 prepare_image_for_display (struct frame *f, struct image *img)
1032 /* We're about to display IMG, so set its timestamp to `now'. */
1033 img->timestamp = current_timespec ();
1035 #ifndef USE_CAIRO
1036 /* If IMG doesn't have a pixmap yet, load it now, using the image
1037 type dependent loader function. */
1038 if (img->pixmap == NO_PIXMAP && !img->load_failed_p)
1039 img->load_failed_p = ! img->type->load (f, img);
1041 #ifdef HAVE_X_WINDOWS
1042 if (!img->load_failed_p)
1044 block_input ();
1045 image_sync_to_pixmaps (f, img);
1046 unblock_input ();
1048 #endif
1049 #endif
1053 /* Value is the number of pixels for the ascent of image IMG when
1054 drawn in face FACE. */
1057 image_ascent (struct image *img, struct face *face, struct glyph_slice *slice)
1059 int height;
1060 int ascent;
1062 if (slice->height == img->height)
1063 height = img->height + img->vmargin;
1064 else if (slice->y == 0)
1065 height = slice->height + img->vmargin;
1066 else
1067 height = slice->height;
1069 if (img->ascent == CENTERED_IMAGE_ASCENT)
1071 if (face->font)
1073 #ifdef HAVE_NTGUI
1074 /* W32 specific version. Why?. ++kfs */
1075 ascent = height / 2 - (FONT_DESCENT (face->font)
1076 - FONT_BASE (face->font)) / 2;
1077 #else
1078 /* This expression is arranged so that if the image can't be
1079 exactly centered, it will be moved slightly up. This is
1080 because a typical font is `top-heavy' (due to the presence
1081 uppercase letters), so the image placement should err towards
1082 being top-heavy too. It also just generally looks better. */
1083 ascent = (height + FONT_BASE (face->font)
1084 - FONT_DESCENT (face->font) + 1) / 2;
1085 #endif /* HAVE_NTGUI */
1087 else
1088 ascent = height / 2;
1090 else
1091 ascent = height * (img->ascent / 100.0);
1093 return ascent;
1096 #ifdef USE_CAIRO
1097 static uint32_t
1098 xcolor_to_argb32 (XColor xc)
1100 return ((0xffu << 24) | ((xc.red / 256) << 16)
1101 | ((xc.green / 256) << 8) | (xc.blue / 256));
1104 static uint32_t
1105 get_spec_bg_or_alpha_as_argb (struct image *img,
1106 struct frame *f)
1108 uint32_t bgcolor = 0;
1109 XColor xbgcolor;
1110 Lisp_Object bg = image_spec_value (img->spec, QCbackground, NULL);
1112 if (STRINGP (bg) && x_parse_color (f, SSDATA (bg), &xbgcolor))
1113 bgcolor = xcolor_to_argb32 (xbgcolor);
1115 return bgcolor;
1118 static void
1119 create_cairo_image_surface (struct image *img,
1120 unsigned char *data,
1121 int width,
1122 int height)
1124 cairo_surface_t *surface;
1125 cairo_format_t format = CAIRO_FORMAT_ARGB32;
1126 int stride = cairo_format_stride_for_width (format, width);
1127 surface = cairo_image_surface_create_for_data (data,
1128 format,
1129 width,
1130 height,
1131 stride);
1132 img->width = width;
1133 img->height = height;
1134 img->cr_data = surface;
1135 img->cr_data2 = data;
1136 img->pixmap = 0;
1138 #endif
1142 /* Image background colors. */
1144 /* Find the "best" corner color of a bitmap.
1145 On W32, XIMG is assumed to a device context with the bitmap selected. */
1147 static RGB_PIXEL_COLOR
1148 four_corners_best (XImagePtr_or_DC ximg, int *corners,
1149 unsigned long width, unsigned long height)
1151 RGB_PIXEL_COLOR corner_pixels[4];
1152 RGB_PIXEL_COLOR best UNINIT;
1153 int i, best_count;
1155 if (corners && corners[BOT_CORNER] >= 0)
1157 /* Get the colors at the corner_pixels of ximg. */
1158 corner_pixels[0] = GET_PIXEL (ximg, corners[LEFT_CORNER], corners[TOP_CORNER]);
1159 corner_pixels[1] = GET_PIXEL (ximg, corners[RIGHT_CORNER] - 1, corners[TOP_CORNER]);
1160 corner_pixels[2] = GET_PIXEL (ximg, corners[RIGHT_CORNER] - 1, corners[BOT_CORNER] - 1);
1161 corner_pixels[3] = GET_PIXEL (ximg, corners[LEFT_CORNER], corners[BOT_CORNER] - 1);
1163 else
1165 /* Get the colors at the corner_pixels of ximg. */
1166 corner_pixels[0] = GET_PIXEL (ximg, 0, 0);
1167 corner_pixels[1] = GET_PIXEL (ximg, width - 1, 0);
1168 corner_pixels[2] = GET_PIXEL (ximg, width - 1, height - 1);
1169 corner_pixels[3] = GET_PIXEL (ximg, 0, height - 1);
1171 /* Choose the most frequently found color as background. */
1172 for (i = best_count = 0; i < 4; ++i)
1174 int j, n;
1176 for (j = n = 0; j < 4; ++j)
1177 if (corner_pixels[i] == corner_pixels[j])
1178 ++n;
1180 if (n > best_count)
1181 best = corner_pixels[i], best_count = n;
1184 return best;
1187 /* Portability macros */
1189 #ifdef HAVE_NTGUI
1191 #define Free_Pixmap(display, pixmap) \
1192 DeleteObject (pixmap)
1194 #elif defined (HAVE_NS)
1196 #define Free_Pixmap(display, pixmap) \
1197 ns_release_object (pixmap)
1199 #else
1201 #define Free_Pixmap(display, pixmap) \
1202 XFreePixmap (display, pixmap)
1204 #endif /* !HAVE_NTGUI && !HAVE_NS */
1207 /* Return the `background' field of IMG. If IMG doesn't have one yet,
1208 it is guessed heuristically. If non-zero, XIMG is an existing
1209 XImage object (or device context with the image selected on W32) to
1210 use for the heuristic. */
1212 RGB_PIXEL_COLOR
1213 image_background (struct image *img, struct frame *f, XImagePtr_or_DC ximg)
1215 if (! img->background_valid)
1216 /* IMG doesn't have a background yet, try to guess a reasonable value. */
1218 bool free_ximg = !ximg;
1219 #ifdef HAVE_NTGUI
1220 HGDIOBJ prev;
1221 #endif /* HAVE_NTGUI */
1223 if (free_ximg)
1224 ximg = image_get_x_image_or_dc (f, img, 0, &prev);
1226 img->background = four_corners_best (ximg, img->corners, img->width, img->height);
1228 if (free_ximg)
1229 image_unget_x_image_or_dc (img, 0, ximg, prev);
1231 img->background_valid = 1;
1234 return img->background;
1237 /* Return the `background_transparent' field of IMG. If IMG doesn't
1238 have one yet, it is guessed heuristically. If non-zero, MASK is an
1239 existing XImage object to use for the heuristic. */
1242 image_background_transparent (struct image *img, struct frame *f, XImagePtr_or_DC mask)
1244 if (! img->background_transparent_valid)
1245 /* IMG doesn't have a background yet, try to guess a reasonable value. */
1247 if (img->mask)
1249 bool free_mask = !mask;
1250 #ifdef HAVE_NTGUI
1251 HGDIOBJ prev;
1252 #endif /* HAVE_NTGUI */
1254 if (free_mask)
1255 mask = image_get_x_image_or_dc (f, img, 1, &prev);
1257 img->background_transparent
1258 = (four_corners_best (mask, img->corners, img->width, img->height) == PIX_MASK_RETAIN);
1260 if (free_mask)
1261 image_unget_x_image_or_dc (img, 1, mask, prev);
1263 else
1264 img->background_transparent = 0;
1266 img->background_transparent_valid = 1;
1269 return img->background_transparent;
1272 #if defined (HAVE_PNG) || defined (HAVE_IMAGEMAGICK) || defined (HAVE_RSVG)
1274 /* Store F's background color into *BGCOLOR. */
1275 static void
1276 x_query_frame_background_color (struct frame *f, XColor *bgcolor)
1278 #ifndef HAVE_NS
1279 bgcolor->pixel = FRAME_BACKGROUND_PIXEL (f);
1280 x_query_color (f, bgcolor);
1281 #else
1282 ns_query_color (FRAME_BACKGROUND_COLOR (f), bgcolor, 1);
1283 #endif
1286 #endif /* HAVE_PNG || HAVE_IMAGEMAGICK || HAVE_RSVG */
1288 /***********************************************************************
1289 Helper functions for X image types
1290 ***********************************************************************/
1292 /* Clear X resources of image IMG on frame F according to FLAGS.
1293 FLAGS is bitwise-or of the following masks:
1294 CLEAR_IMAGE_PIXMAP free the pixmap if any.
1295 CLEAR_IMAGE_MASK means clear the mask pixmap if any.
1296 CLEAR_IMAGE_COLORS means free colors allocated for the image, if
1297 any. */
1299 #define CLEAR_IMAGE_PIXMAP (1 << 0)
1300 #define CLEAR_IMAGE_MASK (1 << 1)
1301 #define CLEAR_IMAGE_COLORS (1 << 2)
1303 static void
1304 x_clear_image_1 (struct frame *f, struct image *img, int flags)
1306 if (flags & CLEAR_IMAGE_PIXMAP)
1308 if (img->pixmap)
1310 Free_Pixmap (FRAME_X_DISPLAY (f), img->pixmap);
1311 img->pixmap = NO_PIXMAP;
1312 /* NOTE (HAVE_NS): background color is NOT an indexed color! */
1313 img->background_valid = 0;
1315 #ifdef HAVE_X_WINDOWS
1316 if (img->ximg)
1318 x_destroy_x_image (img->ximg);
1319 img->ximg = NULL;
1320 img->background_valid = 0;
1322 #endif
1325 if (flags & CLEAR_IMAGE_MASK)
1327 if (img->mask)
1329 Free_Pixmap (FRAME_X_DISPLAY (f), img->mask);
1330 img->mask = NO_PIXMAP;
1331 img->background_transparent_valid = 0;
1333 #ifdef HAVE_X_WINDOWS
1334 if (img->mask_img)
1336 x_destroy_x_image (img->mask_img);
1337 img->mask_img = NULL;
1338 img->background_transparent_valid = 0;
1340 #endif
1343 if ((flags & CLEAR_IMAGE_COLORS) && img->ncolors)
1345 /* W32_TODO: color table support. */
1346 #ifdef HAVE_X_WINDOWS
1347 x_free_colors (f, img->colors, img->ncolors);
1348 #endif /* HAVE_X_WINDOWS */
1349 xfree (img->colors);
1350 img->colors = NULL;
1351 img->ncolors = 0;
1356 /* Free X resources of image IMG which is used on frame F. */
1358 static void
1359 x_clear_image (struct frame *f, struct image *img)
1361 block_input ();
1362 #ifdef USE_CAIRO
1363 if (img->cr_data)
1364 cairo_surface_destroy ((cairo_surface_t *)img->cr_data);
1365 if (img->cr_data2) xfree (img->cr_data2);
1366 #endif
1367 x_clear_image_1 (f, img,
1368 CLEAR_IMAGE_PIXMAP | CLEAR_IMAGE_MASK | CLEAR_IMAGE_COLORS);
1369 unblock_input ();
1373 /* Allocate color COLOR_NAME for image IMG on frame F. If color
1374 cannot be allocated, use DFLT. Add a newly allocated color to
1375 IMG->colors, so that it can be freed again. Value is the pixel
1376 color. */
1378 static unsigned long
1379 x_alloc_image_color (struct frame *f, struct image *img, Lisp_Object color_name,
1380 unsigned long dflt)
1382 XColor color;
1383 unsigned long result;
1385 eassert (STRINGP (color_name));
1387 if (x_defined_color (f, SSDATA (color_name), &color, 1)
1388 && img->ncolors < min (min (PTRDIFF_MAX, SIZE_MAX) / sizeof *img->colors,
1389 INT_MAX))
1391 /* This isn't called frequently so we get away with simply
1392 reallocating the color vector to the needed size, here. */
1393 ptrdiff_t ncolors = img->ncolors + 1;
1394 img->colors = xrealloc (img->colors, ncolors * sizeof *img->colors);
1395 img->colors[ncolors - 1] = color.pixel;
1396 img->ncolors = ncolors;
1397 result = color.pixel;
1399 else
1400 result = dflt;
1402 return result;
1407 /***********************************************************************
1408 Image Cache
1409 ***********************************************************************/
1411 static void cache_image (struct frame *f, struct image *img);
1413 /* Return a new, initialized image cache that is allocated from the
1414 heap. Call free_image_cache to free an image cache. */
1416 struct image_cache *
1417 make_image_cache (void)
1419 struct image_cache *c = xmalloc (sizeof *c);
1421 c->size = 50;
1422 c->used = c->refcount = 0;
1423 c->images = xmalloc (c->size * sizeof *c->images);
1424 c->buckets = xzalloc (IMAGE_CACHE_BUCKETS_SIZE * sizeof *c->buckets);
1425 return c;
1429 /* Find an image matching SPEC in the cache, and return it. If no
1430 image is found, return NULL. */
1431 static struct image *
1432 search_image_cache (struct frame *f, Lisp_Object spec, EMACS_UINT hash)
1434 struct image *img;
1435 struct image_cache *c = FRAME_IMAGE_CACHE (f);
1436 int i = hash % IMAGE_CACHE_BUCKETS_SIZE;
1438 if (!c) return NULL;
1440 /* If the image spec does not specify a background color, the cached
1441 image must have the same background color as the current frame.
1442 The foreground color must also match, for the sake of monochrome
1443 images.
1445 In fact, we could ignore the foreground color matching condition
1446 for color images, or if the image spec specifies :foreground;
1447 similarly we could ignore the background color matching condition
1448 for formats that don't use transparency (such as jpeg), or if the
1449 image spec specifies :background. However, the extra memory
1450 usage is probably negligible in practice, so we don't bother. */
1452 for (img = c->buckets[i]; img; img = img->next)
1453 if (img->hash == hash
1454 && !NILP (Fequal (img->spec, spec))
1455 && img->frame_foreground == FRAME_FOREGROUND_PIXEL (f)
1456 && img->frame_background == FRAME_BACKGROUND_PIXEL (f))
1457 break;
1458 return img;
1462 /* Search frame F for an image with spec SPEC, and free it. */
1464 static void
1465 uncache_image (struct frame *f, Lisp_Object spec)
1467 struct image *img = search_image_cache (f, spec, sxhash (spec, 0));
1468 if (img)
1470 free_image (f, img);
1471 /* As display glyphs may still be referring to the image ID, we
1472 must garbage the frame (Bug#6426). */
1473 SET_FRAME_GARBAGED (f);
1478 /* Free image cache of frame F. Be aware that X frames share images
1479 caches. */
1481 void
1482 free_image_cache (struct frame *f)
1484 struct image_cache *c = FRAME_IMAGE_CACHE (f);
1485 if (c)
1487 ptrdiff_t i;
1489 /* Cache should not be referenced by any frame when freed. */
1490 eassert (c->refcount == 0);
1492 for (i = 0; i < c->used; ++i)
1493 free_image (f, c->images[i]);
1494 xfree (c->images);
1495 xfree (c->buckets);
1496 xfree (c);
1497 FRAME_IMAGE_CACHE (f) = NULL;
1502 /* Clear image cache of frame F. FILTER=t means free all images.
1503 FILTER=nil means clear only images that haven't been
1504 displayed for some time.
1505 Else, only free the images which have FILTER in their `dependencies'.
1506 Should be called from time to time to reduce the number of loaded images.
1507 If image-cache-eviction-delay is non-nil, this frees images in the cache
1508 which weren't displayed for at least that many seconds. */
1510 static void
1511 clear_image_cache (struct frame *f, Lisp_Object filter)
1513 struct image_cache *c = FRAME_IMAGE_CACHE (f);
1515 if (c)
1517 ptrdiff_t i, nfreed = 0;
1519 /* Block input so that we won't be interrupted by a SIGIO
1520 while being in an inconsistent state. */
1521 block_input ();
1523 if (!NILP (filter))
1525 /* Filter image cache. */
1526 for (i = 0; i < c->used; ++i)
1528 struct image *img = c->images[i];
1529 if (img && (EQ (Qt, filter)
1530 || !NILP (Fmember (filter, img->dependencies))))
1532 free_image (f, img);
1533 ++nfreed;
1537 else if (INTEGERP (Vimage_cache_eviction_delay))
1539 /* Free cache based on timestamp. */
1540 struct timespec old, t;
1541 double delay;
1542 ptrdiff_t nimages = 0;
1544 for (i = 0; i < c->used; ++i)
1545 if (c->images[i])
1546 nimages++;
1548 /* If the number of cached images has grown unusually large,
1549 decrease the cache eviction delay (Bug#6230). */
1550 delay = XINT (Vimage_cache_eviction_delay);
1551 if (nimages > 40)
1552 delay = 1600 * delay / nimages / nimages;
1553 delay = max (delay, 1);
1555 t = current_timespec ();
1556 old = timespec_sub (t, dtotimespec (delay));
1558 for (i = 0; i < c->used; ++i)
1560 struct image *img = c->images[i];
1561 if (img && timespec_cmp (img->timestamp, old) < 0)
1563 free_image (f, img);
1564 ++nfreed;
1569 /* We may be clearing the image cache because, for example,
1570 Emacs was iconified for a longer period of time. In that
1571 case, current matrices may still contain references to
1572 images freed above. So, clear these matrices. */
1573 if (nfreed)
1575 Lisp_Object tail, frame;
1577 FOR_EACH_FRAME (tail, frame)
1579 struct frame *fr = XFRAME (frame);
1580 if (FRAME_IMAGE_CACHE (fr) == c)
1581 clear_current_matrices (fr);
1584 windows_or_buffers_changed = 19;
1587 unblock_input ();
1591 void
1592 clear_image_caches (Lisp_Object filter)
1594 /* FIXME: We want to do
1595 * struct terminal *t;
1596 * for (t = terminal_list; t; t = t->next_terminal)
1597 * clear_image_cache (t, filter); */
1598 Lisp_Object tail, frame;
1599 FOR_EACH_FRAME (tail, frame)
1600 if (FRAME_WINDOW_P (XFRAME (frame)))
1601 clear_image_cache (XFRAME (frame), filter);
1604 DEFUN ("clear-image-cache", Fclear_image_cache, Sclear_image_cache,
1605 0, 1, 0,
1606 doc: /* Clear the image cache.
1607 FILTER nil or a frame means clear all images in the selected frame.
1608 FILTER t means clear the image caches of all frames.
1609 Anything else, means only clear those images which refer to FILTER,
1610 which is then usually a filename. */)
1611 (Lisp_Object filter)
1613 if (!(EQ (filter, Qnil) || FRAMEP (filter)))
1614 clear_image_caches (filter);
1615 else
1616 clear_image_cache (decode_window_system_frame (filter), Qt);
1618 return Qnil;
1622 DEFUN ("image-flush", Fimage_flush, Simage_flush,
1623 1, 2, 0,
1624 doc: /* Flush the image with specification SPEC on frame FRAME.
1625 This removes the image from the Emacs image cache. If SPEC specifies
1626 an image file, the next redisplay of this image will read from the
1627 current contents of that file.
1629 FRAME nil or omitted means use the selected frame.
1630 FRAME t means refresh the image on all frames. */)
1631 (Lisp_Object spec, Lisp_Object frame)
1633 if (!valid_image_p (spec))
1634 error ("Invalid image specification");
1636 if (EQ (frame, Qt))
1638 Lisp_Object tail;
1639 FOR_EACH_FRAME (tail, frame)
1641 struct frame *f = XFRAME (frame);
1642 if (FRAME_WINDOW_P (f))
1643 uncache_image (f, spec);
1646 else
1647 uncache_image (decode_window_system_frame (frame), spec);
1649 return Qnil;
1653 /* Compute masks and transform image IMG on frame F, as specified
1654 by the image's specification, */
1656 static void
1657 postprocess_image (struct frame *f, struct image *img)
1659 /* Manipulation of the image's mask. */
1660 if (img->pixmap)
1662 Lisp_Object conversion, spec;
1663 Lisp_Object mask;
1665 spec = img->spec;
1667 /* `:heuristic-mask t'
1668 `:mask heuristic'
1669 means build a mask heuristically.
1670 `:heuristic-mask (R G B)'
1671 `:mask (heuristic (R G B))'
1672 means build a mask from color (R G B) in the
1673 image.
1674 `:mask nil'
1675 means remove a mask, if any. */
1677 mask = image_spec_value (spec, QCheuristic_mask, NULL);
1678 if (!NILP (mask))
1679 x_build_heuristic_mask (f, img, mask);
1680 else
1682 bool found_p;
1684 mask = image_spec_value (spec, QCmask, &found_p);
1686 if (EQ (mask, Qheuristic))
1687 x_build_heuristic_mask (f, img, Qt);
1688 else if (CONSP (mask)
1689 && EQ (XCAR (mask), Qheuristic))
1691 if (CONSP (XCDR (mask)))
1692 x_build_heuristic_mask (f, img, XCAR (XCDR (mask)));
1693 else
1694 x_build_heuristic_mask (f, img, XCDR (mask));
1696 else if (NILP (mask) && found_p && img->mask)
1697 x_clear_image_1 (f, img, CLEAR_IMAGE_MASK);
1701 /* Should we apply an image transformation algorithm? */
1702 conversion = image_spec_value (spec, QCconversion, NULL);
1703 if (EQ (conversion, Qdisabled))
1704 x_disable_image (f, img);
1705 else if (EQ (conversion, Qlaplace))
1706 x_laplace (f, img);
1707 else if (EQ (conversion, Qemboss))
1708 x_emboss (f, img);
1709 else if (CONSP (conversion)
1710 && EQ (XCAR (conversion), Qedge_detection))
1712 Lisp_Object tem;
1713 tem = XCDR (conversion);
1714 if (CONSP (tem))
1715 x_edge_detection (f, img,
1716 Fplist_get (tem, QCmatrix),
1717 Fplist_get (tem, QCcolor_adjustment));
1723 /* Return the id of image with Lisp specification SPEC on frame F.
1724 SPEC must be a valid Lisp image specification (see valid_image_p). */
1726 ptrdiff_t
1727 lookup_image (struct frame *f, Lisp_Object spec)
1729 struct image *img;
1730 EMACS_UINT hash;
1732 /* F must be a window-system frame, and SPEC must be a valid image
1733 specification. */
1734 eassert (FRAME_WINDOW_P (f));
1735 eassert (valid_image_p (spec));
1737 /* Look up SPEC in the hash table of the image cache. */
1738 hash = sxhash (spec, 0);
1739 img = search_image_cache (f, spec, hash);
1740 if (img && img->load_failed_p)
1742 free_image (f, img);
1743 img = NULL;
1746 /* If not found, create a new image and cache it. */
1747 if (img == NULL)
1749 block_input ();
1750 img = make_image (spec, hash);
1751 cache_image (f, img);
1752 img->load_failed_p = ! img->type->load (f, img);
1753 img->frame_foreground = FRAME_FOREGROUND_PIXEL (f);
1754 img->frame_background = FRAME_BACKGROUND_PIXEL (f);
1756 /* If we can't load the image, and we don't have a width and
1757 height, use some arbitrary width and height so that we can
1758 draw a rectangle for it. */
1759 if (img->load_failed_p)
1761 Lisp_Object value;
1763 value = image_spec_value (spec, QCwidth, NULL);
1764 img->width = (INTEGERP (value)
1765 ? XFASTINT (value) : DEFAULT_IMAGE_WIDTH);
1766 value = image_spec_value (spec, QCheight, NULL);
1767 img->height = (INTEGERP (value)
1768 ? XFASTINT (value) : DEFAULT_IMAGE_HEIGHT);
1770 else
1772 /* Handle image type independent image attributes
1773 `:ascent ASCENT', `:margin MARGIN', `:relief RELIEF',
1774 `:background COLOR'. */
1775 Lisp_Object ascent, margin, relief, bg;
1776 int relief_bound;
1778 ascent = image_spec_value (spec, QCascent, NULL);
1779 if (INTEGERP (ascent))
1780 img->ascent = XFASTINT (ascent);
1781 else if (EQ (ascent, Qcenter))
1782 img->ascent = CENTERED_IMAGE_ASCENT;
1784 margin = image_spec_value (spec, QCmargin, NULL);
1785 if (INTEGERP (margin))
1786 img->vmargin = img->hmargin = XFASTINT (margin);
1787 else if (CONSP (margin))
1789 img->hmargin = XFASTINT (XCAR (margin));
1790 img->vmargin = XFASTINT (XCDR (margin));
1793 relief = image_spec_value (spec, QCrelief, NULL);
1794 relief_bound = INT_MAX - max (img->hmargin, img->vmargin);
1795 if (RANGED_INTEGERP (- relief_bound, relief, relief_bound))
1797 img->relief = XINT (relief);
1798 img->hmargin += eabs (img->relief);
1799 img->vmargin += eabs (img->relief);
1802 if (! img->background_valid)
1804 bg = image_spec_value (img->spec, QCbackground, NULL);
1805 if (!NILP (bg))
1807 img->background
1808 = x_alloc_image_color (f, img, bg,
1809 FRAME_BACKGROUND_PIXEL (f));
1810 img->background_valid = 1;
1814 /* Do image transformations and compute masks, unless we
1815 don't have the image yet. */
1816 if (!EQ (builtin_lisp_symbol (img->type->type), Qpostscript))
1817 postprocess_image (f, img);
1820 unblock_input ();
1823 /* We're using IMG, so set its timestamp to `now'. */
1824 img->timestamp = current_timespec ();
1826 /* Value is the image id. */
1827 return img->id;
1831 /* Cache image IMG in the image cache of frame F. */
1833 static void
1834 cache_image (struct frame *f, struct image *img)
1836 struct image_cache *c = FRAME_IMAGE_CACHE (f);
1837 ptrdiff_t i;
1839 if (!c)
1840 c = FRAME_IMAGE_CACHE (f) = make_image_cache ();
1842 /* Find a free slot in c->images. */
1843 for (i = 0; i < c->used; ++i)
1844 if (c->images[i] == NULL)
1845 break;
1847 /* If no free slot found, maybe enlarge c->images. */
1848 if (i == c->used && c->used == c->size)
1849 c->images = xpalloc (c->images, &c->size, 1, -1, sizeof *c->images);
1851 /* Add IMG to c->images, and assign IMG an id. */
1852 c->images[i] = img;
1853 img->id = i;
1854 if (i == c->used)
1855 ++c->used;
1857 /* Add IMG to the cache's hash table. */
1858 i = img->hash % IMAGE_CACHE_BUCKETS_SIZE;
1859 img->next = c->buckets[i];
1860 if (img->next)
1861 img->next->prev = img;
1862 img->prev = NULL;
1863 c->buckets[i] = img;
1867 /* Call FN on every image in the image cache of frame F. Used to mark
1868 Lisp Objects in the image cache. */
1870 /* Mark Lisp objects in image IMG. */
1872 static void
1873 mark_image (struct image *img)
1875 mark_object (img->spec);
1876 mark_object (img->dependencies);
1878 if (!NILP (img->lisp_data))
1879 mark_object (img->lisp_data);
1883 void
1884 mark_image_cache (struct image_cache *c)
1886 if (c)
1888 ptrdiff_t i;
1889 for (i = 0; i < c->used; ++i)
1890 if (c->images[i])
1891 mark_image (c->images[i]);
1897 /***********************************************************************
1898 X / NS / W32 support code
1899 ***********************************************************************/
1901 /* Return true if XIMG's size WIDTH x HEIGHT doesn't break the
1902 windowing system.
1903 WIDTH and HEIGHT must both be positive.
1904 If XIMG is null, assume it is a bitmap. */
1905 static bool
1906 x_check_image_size (XImagePtr ximg, int width, int height)
1908 #ifdef HAVE_X_WINDOWS
1909 /* Respect Xlib's limits: it cannot deal with images that have more
1910 than INT_MAX (and/or UINT_MAX) bytes. And respect Emacs's limits
1911 of PTRDIFF_MAX (and/or SIZE_MAX) bytes for any object. */
1912 enum
1914 XLIB_BYTES_MAX = min (INT_MAX, UINT_MAX),
1915 X_IMAGE_BYTES_MAX = min (XLIB_BYTES_MAX, min (PTRDIFF_MAX, SIZE_MAX))
1918 int bitmap_pad, depth, bytes_per_line;
1919 if (ximg)
1921 bitmap_pad = ximg->bitmap_pad;
1922 depth = ximg->depth;
1923 bytes_per_line = ximg->bytes_per_line;
1925 else
1927 bitmap_pad = 8;
1928 depth = 1;
1929 bytes_per_line = (width >> 3) + ((width & 7) != 0);
1931 return (width <= (INT_MAX - (bitmap_pad - 1)) / depth
1932 && height <= X_IMAGE_BYTES_MAX / bytes_per_line);
1933 #else
1934 /* FIXME: Implement this check for the HAVE_NS and HAVE_NTGUI cases.
1935 For now, assume that every image size is allowed on these systems. */
1936 return 1;
1937 #endif
1940 /* Create an XImage and a pixmap of size WIDTH x HEIGHT for use on
1941 frame F. Set *XIMG and *PIXMAP to the XImage and Pixmap created.
1942 Set (*XIMG)->data to a raster of WIDTH x HEIGHT pixels allocated
1943 via xmalloc. Print error messages via image_error if an error
1944 occurs. Value is true if successful.
1946 On W32, a DEPTH of zero signifies a 24 bit image, otherwise DEPTH
1947 should indicate the bit depth of the image. */
1949 static bool
1950 x_create_x_image_and_pixmap (struct frame *f, int width, int height, int depth,
1951 XImagePtr *ximg, Pixmap *pixmap)
1953 #ifdef HAVE_X_WINDOWS
1954 Display *display = FRAME_X_DISPLAY (f);
1955 Drawable drawable = FRAME_X_DRAWABLE (f);
1956 Screen *screen = FRAME_X_SCREEN (f);
1958 eassert (input_blocked_p ());
1960 if (depth <= 0)
1961 depth = DefaultDepthOfScreen (screen);
1962 *ximg = XCreateImage (display, DefaultVisualOfScreen (screen),
1963 depth, ZPixmap, 0, NULL, width, height,
1964 depth > 16 ? 32 : depth > 8 ? 16 : 8, 0);
1965 if (*ximg == NULL)
1967 image_error ("Unable to allocate X image");
1968 return 0;
1971 if (! x_check_image_size (*ximg, width, height))
1973 x_destroy_x_image (*ximg);
1974 *ximg = NULL;
1975 image_error ("Image too large (%dx%d)",
1976 make_number (width), make_number (height));
1977 return 0;
1980 /* Allocate image raster. */
1981 (*ximg)->data = xmalloc ((*ximg)->bytes_per_line * height);
1983 /* Allocate a pixmap of the same size. */
1984 *pixmap = XCreatePixmap (display, drawable, width, height, depth);
1985 if (*pixmap == NO_PIXMAP)
1987 x_destroy_x_image (*ximg);
1988 *ximg = NULL;
1989 image_error ("Unable to create X pixmap");
1990 return 0;
1993 return 1;
1994 #endif /* HAVE_X_WINDOWS */
1996 #ifdef HAVE_NTGUI
1998 BITMAPINFOHEADER *header;
1999 HDC hdc;
2000 int scanline_width_bits;
2001 int remainder;
2002 int palette_colors = 0;
2004 if (depth == 0)
2005 depth = 24;
2007 if (depth != 1 && depth != 4 && depth != 8
2008 && depth != 16 && depth != 24 && depth != 32)
2010 image_error ("Invalid image bit depth specified");
2011 return 0;
2014 scanline_width_bits = width * depth;
2015 remainder = scanline_width_bits % 32;
2017 if (remainder)
2018 scanline_width_bits += 32 - remainder;
2020 /* Bitmaps with a depth less than 16 need a palette. */
2021 /* BITMAPINFO structure already contains the first RGBQUAD. */
2022 if (depth < 16)
2023 palette_colors = 1 << (depth - 1);
2025 *ximg = xmalloc (sizeof (XImage) + palette_colors * sizeof (RGBQUAD));
2027 header = &(*ximg)->info.bmiHeader;
2028 memset (&(*ximg)->info, 0, sizeof (BITMAPINFO));
2029 header->biSize = sizeof (*header);
2030 header->biWidth = width;
2031 header->biHeight = -height; /* negative indicates a top-down bitmap. */
2032 header->biPlanes = 1;
2033 header->biBitCount = depth;
2034 header->biCompression = BI_RGB;
2035 header->biClrUsed = palette_colors;
2037 /* TODO: fill in palette. */
2038 if (depth == 1)
2040 (*ximg)->info.bmiColors[0].rgbBlue = 0;
2041 (*ximg)->info.bmiColors[0].rgbGreen = 0;
2042 (*ximg)->info.bmiColors[0].rgbRed = 0;
2043 (*ximg)->info.bmiColors[0].rgbReserved = 0;
2044 /* bmiColors is a variable-length array declared by w32api
2045 headers as bmiColors[1], which triggers a warning under
2046 -Warray-bounds; shut that up. */
2047 # if GNUC_PREREQ (4, 4, 0)
2048 # pragma GCC push_options
2049 # pragma GCC diagnostic ignored "-Warray-bounds"
2050 # endif
2051 (*ximg)->info.bmiColors[1].rgbBlue = 255;
2052 (*ximg)->info.bmiColors[1].rgbGreen = 255;
2053 (*ximg)->info.bmiColors[1].rgbRed = 255;
2054 (*ximg)->info.bmiColors[1].rgbReserved = 0;
2055 # if GNUC_PREREQ (4, 4, 0)
2056 # pragma GCC pop_options
2057 # endif
2060 hdc = get_frame_dc (f);
2062 /* Create a DIBSection and raster array for the bitmap,
2063 and store its handle in *pixmap. */
2064 *pixmap = CreateDIBSection (hdc, &((*ximg)->info),
2065 (depth < 16) ? DIB_PAL_COLORS : DIB_RGB_COLORS,
2066 /* casting avoids a GCC warning */
2067 (void **)&((*ximg)->data), NULL, 0);
2069 /* Realize display palette and garbage all frames. */
2070 release_frame_dc (f, hdc);
2072 if (*pixmap == NULL)
2074 DWORD err = GetLastError ();
2075 Lisp_Object errcode;
2076 /* All system errors are < 10000, so the following is safe. */
2077 XSETINT (errcode, err);
2078 image_error ("Unable to create bitmap, error code %d", errcode);
2079 x_destroy_x_image (*ximg);
2080 *ximg = NULL;
2081 return 0;
2084 return 1;
2086 #endif /* HAVE_NTGUI */
2088 #ifdef HAVE_NS
2089 *pixmap = ns_image_for_XPM (width, height, depth);
2090 if (*pixmap == 0)
2092 *ximg = NULL;
2093 image_error ("Unable to allocate NSImage for XPM pixmap");
2094 return 0;
2096 *ximg = *pixmap;
2097 return 1;
2098 #endif
2102 /* Destroy XImage XIMG. Free XIMG->data. */
2104 static void
2105 x_destroy_x_image (XImagePtr ximg)
2107 eassert (input_blocked_p ());
2108 if (ximg)
2110 #ifdef HAVE_X_WINDOWS
2111 xfree (ximg->data);
2112 ximg->data = NULL;
2113 XDestroyImage (ximg);
2114 #endif /* HAVE_X_WINDOWS */
2115 #ifdef HAVE_NTGUI
2116 /* Data will be freed by DestroyObject. */
2117 ximg->data = NULL;
2118 xfree (ximg);
2119 #endif /* HAVE_NTGUI */
2120 #ifdef HAVE_NS
2121 ns_release_object (ximg);
2122 #endif /* HAVE_NS */
2127 /* Put XImage XIMG into pixmap PIXMAP on frame F. WIDTH and HEIGHT
2128 are width and height of both the image and pixmap. */
2130 static void
2131 x_put_x_image (struct frame *f, XImagePtr ximg, Pixmap pixmap, int width, int height)
2133 #ifdef HAVE_X_WINDOWS
2134 GC gc;
2136 eassert (input_blocked_p ());
2137 gc = XCreateGC (FRAME_X_DISPLAY (f), pixmap, 0, NULL);
2138 XPutImage (FRAME_X_DISPLAY (f), pixmap, gc, ximg, 0, 0, 0, 0, width, height);
2139 XFreeGC (FRAME_X_DISPLAY (f), gc);
2140 #endif /* HAVE_X_WINDOWS */
2142 #ifdef HAVE_NTGUI
2143 #if 0 /* I don't think this is necessary looking at where it is used. */
2144 HDC hdc = get_frame_dc (f);
2145 SetDIBits (hdc, pixmap, 0, height, ximg->data, &(ximg->info), DIB_RGB_COLORS);
2146 release_frame_dc (f, hdc);
2147 #endif
2148 #endif /* HAVE_NTGUI */
2150 #ifdef HAVE_NS
2151 eassert (ximg == pixmap);
2152 ns_retain_object (ximg);
2153 #endif
2156 /* Thin wrapper for x_create_x_image_and_pixmap, so that it matches
2157 with image_put_x_image. */
2159 static bool
2160 image_create_x_image_and_pixmap (struct frame *f, struct image *img,
2161 int width, int height, int depth,
2162 XImagePtr *ximg, bool mask_p)
2164 eassert ((!mask_p ? img->pixmap : img->mask) == NO_PIXMAP);
2166 return x_create_x_image_and_pixmap (f, width, height, depth, ximg,
2167 !mask_p ? &img->pixmap : &img->mask);
2170 /* Put X image XIMG into image IMG on frame F, as a mask if and only
2171 if MASK_P. On X, this simply records XIMG on a member of IMG, so
2172 it can be put into the pixmap afterwards via image_sync_to_pixmaps.
2173 On the other platforms, it puts XIMG into the pixmap, then frees
2174 the X image and its buffer. */
2176 static void
2177 image_put_x_image (struct frame *f, struct image *img, XImagePtr ximg,
2178 bool mask_p)
2180 #ifdef HAVE_X_WINDOWS
2181 if (!mask_p)
2183 eassert (img->ximg == NULL);
2184 img->ximg = ximg;
2186 else
2188 eassert (img->mask_img == NULL);
2189 img->mask_img = ximg;
2191 #else
2192 x_put_x_image (f, ximg, !mask_p ? img->pixmap : img->mask,
2193 img->width, img->height);
2194 x_destroy_x_image (ximg);
2195 #endif
2198 #ifdef HAVE_X_WINDOWS
2199 /* Put the X images recorded in IMG on frame F into pixmaps, then free
2200 the X images and their buffers. */
2202 static void
2203 image_sync_to_pixmaps (struct frame *f, struct image *img)
2205 if (img->ximg)
2207 x_put_x_image (f, img->ximg, img->pixmap, img->width, img->height);
2208 x_destroy_x_image (img->ximg);
2209 img->ximg = NULL;
2211 if (img->mask_img)
2213 x_put_x_image (f, img->mask_img, img->mask, img->width, img->height);
2214 x_destroy_x_image (img->mask_img);
2215 img->mask_img = NULL;
2218 #endif
2220 #ifdef HAVE_NTGUI
2221 /* Create a memory device context for IMG on frame F. It stores the
2222 currently selected GDI object into *PREV for future restoration by
2223 image_unget_x_image_or_dc. */
2225 static XImagePtr_or_DC
2226 image_get_x_image_or_dc (struct frame *f, struct image *img, bool mask_p,
2227 HGDIOBJ *prev)
2229 HDC frame_dc = get_frame_dc (f);
2230 XImagePtr_or_DC ximg = CreateCompatibleDC (frame_dc);
2232 release_frame_dc (f, frame_dc);
2233 *prev = SelectObject (ximg, !mask_p ? img->pixmap : img->mask);
2235 return ximg;
2238 static void
2239 image_unget_x_image_or_dc (struct image *img, bool mask_p,
2240 XImagePtr_or_DC ximg, HGDIOBJ prev)
2242 SelectObject (ximg, prev);
2243 DeleteDC (ximg);
2245 #else /* !HAVE_NTGUI */
2246 /* Get the X image for IMG on frame F. The resulting X image data
2247 should be treated as read-only at least on X. */
2249 static XImagePtr
2250 image_get_x_image (struct frame *f, struct image *img, bool mask_p)
2252 #ifdef HAVE_X_WINDOWS
2253 XImagePtr ximg_in_img = !mask_p ? img->ximg : img->mask_img;
2255 if (ximg_in_img)
2256 return ximg_in_img;
2257 else
2258 return XGetImage (FRAME_X_DISPLAY (f), !mask_p ? img->pixmap : img->mask,
2259 0, 0, img->width, img->height, ~0, ZPixmap);
2260 #elif defined (HAVE_NS)
2261 XImagePtr pixmap = !mask_p ? img->pixmap : img->mask;
2263 ns_retain_object (pixmap);
2264 return pixmap;
2265 #endif
2268 static void
2269 image_unget_x_image (struct image *img, bool mask_p, XImagePtr ximg)
2271 #ifdef HAVE_X_WINDOWS
2272 XImagePtr ximg_in_img = !mask_p ? img->ximg : img->mask_img;
2274 if (ximg_in_img)
2275 eassert (ximg == ximg_in_img);
2276 else
2277 XDestroyImage (ximg);
2278 #elif defined (HAVE_NS)
2279 ns_release_object (ximg);
2280 #endif
2282 #endif /* !HAVE_NTGUI */
2285 /***********************************************************************
2286 File Handling
2287 ***********************************************************************/
2289 /* Find image file FILE. Look in data-directory/images, then
2290 x-bitmap-file-path. Value is the full name of the file
2291 found, or nil if not found. If PFD is nonnull store into *PFD a
2292 readable file descriptor for the file, opened in binary mode. If
2293 PFD is null, do not open the file. */
2295 static Lisp_Object
2296 x_find_image_fd (Lisp_Object file, int *pfd)
2298 Lisp_Object file_found, search_path;
2299 int fd;
2301 /* TODO I think this should use something like image-load-path
2302 instead. Unfortunately, that can contain non-string elements. */
2303 search_path = Fcons (Fexpand_file_name (build_string ("images"),
2304 Vdata_directory),
2305 Vx_bitmap_file_path);
2307 /* Try to find FILE in data-directory/images, then x-bitmap-file-path. */
2308 fd = openp (search_path, file, Qnil, &file_found,
2309 pfd ? Qt : make_number (R_OK), false);
2310 if (fd >= 0 || fd == -2)
2312 file_found = ENCODE_FILE (file_found);
2313 if (fd == -2)
2315 /* The file exists locally, but has a file handler. (This
2316 happens, e.g., under Auto Image File Mode.) 'openp'
2317 didn't open the file, so we should, because the caller
2318 expects that. */
2319 fd = emacs_open (SSDATA (file_found), O_RDONLY, 0);
2322 else /* fd < 0, but not -2 */
2323 return Qnil;
2324 if (pfd)
2325 *pfd = fd;
2326 return file_found;
2329 /* Find image file FILE. Look in data-directory/images, then
2330 x-bitmap-file-path. Value is the encoded full name of the file
2331 found, or nil if not found. */
2333 Lisp_Object
2334 x_find_image_file (Lisp_Object file)
2336 return x_find_image_fd (file, 0);
2339 /* Read FILE into memory. Value is a pointer to a buffer allocated
2340 with xmalloc holding FILE's contents. Value is null if an error
2341 occurred. FD is a file descriptor open for reading FILE. Set
2342 *SIZE to the size of the file. */
2344 static char *
2345 slurp_file (int fd, ptrdiff_t *size)
2347 FILE *fp = fdopen (fd, "rb");
2349 char *buf = NULL;
2350 struct stat st;
2352 if (fp)
2354 ptrdiff_t count = SPECPDL_INDEX ();
2355 record_unwind_protect_ptr (fclose_unwind, fp);
2357 if (fstat (fileno (fp), &st) == 0
2358 && 0 <= st.st_size && st.st_size < min (PTRDIFF_MAX, SIZE_MAX))
2360 /* Report an error if we read past the purported EOF.
2361 This can happen if the file grows as we read it. */
2362 ptrdiff_t buflen = st.st_size;
2363 buf = xmalloc (buflen + 1);
2364 if (fread_unlocked (buf, 1, buflen + 1, fp) == buflen)
2365 *size = buflen;
2366 else
2368 xfree (buf);
2369 buf = NULL;
2373 unbind_to (count, Qnil);
2376 return buf;
2381 /***********************************************************************
2382 XBM images
2383 ***********************************************************************/
2385 static bool xbm_load (struct frame *f, struct image *img);
2386 static bool xbm_image_p (Lisp_Object object);
2387 static bool xbm_file_p (Lisp_Object);
2390 /* Indices of image specification fields in xbm_format, below. */
2392 enum xbm_keyword_index
2394 XBM_TYPE,
2395 XBM_FILE,
2396 XBM_WIDTH,
2397 XBM_HEIGHT,
2398 XBM_DATA,
2399 XBM_FOREGROUND,
2400 XBM_BACKGROUND,
2401 XBM_ASCENT,
2402 XBM_MARGIN,
2403 XBM_RELIEF,
2404 XBM_ALGORITHM,
2405 XBM_HEURISTIC_MASK,
2406 XBM_MASK,
2407 XBM_LAST
2410 /* Vector of image_keyword structures describing the format
2411 of valid XBM image specifications. */
2413 static const struct image_keyword xbm_format[XBM_LAST] =
2415 {":type", IMAGE_SYMBOL_VALUE, 1},
2416 {":file", IMAGE_STRING_VALUE, 0},
2417 {":width", IMAGE_POSITIVE_INTEGER_VALUE, 0},
2418 {":height", IMAGE_POSITIVE_INTEGER_VALUE, 0},
2419 {":data", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
2420 {":foreground", IMAGE_STRING_OR_NIL_VALUE, 0},
2421 {":background", IMAGE_STRING_OR_NIL_VALUE, 0},
2422 {":ascent", IMAGE_ASCENT_VALUE, 0},
2423 {":margin", IMAGE_NON_NEGATIVE_INTEGER_VALUE_OR_PAIR, 0},
2424 {":relief", IMAGE_INTEGER_VALUE, 0},
2425 {":conversion", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
2426 {":heuristic-mask", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
2427 {":mask", IMAGE_DONT_CHECK_VALUE_TYPE, 0}
2430 /* Structure describing the image type XBM. */
2432 static struct image_type xbm_type =
2434 SYMBOL_INDEX (Qxbm),
2435 xbm_image_p,
2436 xbm_load,
2437 x_clear_image,
2438 NULL,
2439 NULL
2442 /* Tokens returned from xbm_scan. */
2444 enum xbm_token
2446 XBM_TK_IDENT = 256,
2447 XBM_TK_NUMBER,
2448 XBM_TK_OVERFLOW
2452 /* Return true if OBJECT is a valid XBM-type image specification.
2453 A valid specification is a list starting with the symbol `image'
2454 The rest of the list is a property list which must contain an
2455 entry `:type xbm'.
2457 If the specification specifies a file to load, it must contain
2458 an entry `:file FILENAME' where FILENAME is a string.
2460 If the specification is for a bitmap loaded from memory it must
2461 contain `:width WIDTH', `:height HEIGHT', and `:data DATA', where
2462 WIDTH and HEIGHT are integers > 0. DATA may be:
2464 1. a string large enough to hold the bitmap data, i.e. it must
2465 have a size >= (WIDTH + 7) / 8 * HEIGHT
2467 2. a bool-vector of size >= WIDTH * HEIGHT
2469 3. a vector of strings or bool-vectors, one for each line of the
2470 bitmap.
2472 4. a string containing an in-memory XBM file. WIDTH and HEIGHT
2473 may not be specified in this case because they are defined in the
2474 XBM file.
2476 Both the file and data forms may contain the additional entries
2477 `:background COLOR' and `:foreground COLOR'. If not present,
2478 foreground and background of the frame on which the image is
2479 displayed is used. */
2481 static bool
2482 xbm_image_p (Lisp_Object object)
2484 struct image_keyword kw[XBM_LAST];
2486 memcpy (kw, xbm_format, sizeof kw);
2487 if (!parse_image_spec (object, kw, XBM_LAST, Qxbm))
2488 return 0;
2490 eassert (EQ (kw[XBM_TYPE].value, Qxbm));
2492 if (kw[XBM_FILE].count)
2494 if (kw[XBM_WIDTH].count || kw[XBM_HEIGHT].count || kw[XBM_DATA].count)
2495 return 0;
2497 else if (kw[XBM_DATA].count && xbm_file_p (kw[XBM_DATA].value))
2499 /* In-memory XBM file. */
2500 if (kw[XBM_WIDTH].count || kw[XBM_HEIGHT].count || kw[XBM_FILE].count)
2501 return 0;
2503 else
2505 Lisp_Object data;
2506 int width, height;
2508 /* Entries for `:width', `:height' and `:data' must be present. */
2509 if (!kw[XBM_WIDTH].count
2510 || !kw[XBM_HEIGHT].count
2511 || !kw[XBM_DATA].count)
2512 return 0;
2514 data = kw[XBM_DATA].value;
2515 width = XFASTINT (kw[XBM_WIDTH].value);
2516 height = XFASTINT (kw[XBM_HEIGHT].value);
2518 /* Check type of data, and width and height against contents of
2519 data. */
2520 if (VECTORP (data))
2522 EMACS_INT i;
2524 /* Number of elements of the vector must be >= height. */
2525 if (ASIZE (data) < height)
2526 return 0;
2528 /* Each string or bool-vector in data must be large enough
2529 for one line of the image. */
2530 for (i = 0; i < height; ++i)
2532 Lisp_Object elt = AREF (data, i);
2534 if (STRINGP (elt))
2536 if (SCHARS (elt)
2537 < (width + CHAR_BIT - 1) / CHAR_BIT)
2538 return 0;
2540 else if (BOOL_VECTOR_P (elt))
2542 if (bool_vector_size (elt) < width)
2543 return 0;
2545 else
2546 return 0;
2549 else if (STRINGP (data))
2551 if (SCHARS (data)
2552 < (width + CHAR_BIT - 1) / CHAR_BIT * height)
2553 return 0;
2555 else if (BOOL_VECTOR_P (data))
2557 if (bool_vector_size (data) / height < width)
2558 return 0;
2560 else
2561 return 0;
2564 return 1;
2568 /* Scan a bitmap file. FP is the stream to read from. Value is
2569 either an enumerator from enum xbm_token, or a character for a
2570 single-character token, or 0 at end of file. If scanning an
2571 identifier, store the lexeme of the identifier in SVAL. If
2572 scanning a number, store its value in *IVAL. */
2574 static int
2575 xbm_scan (char **s, char *end, char *sval, int *ival)
2577 unsigned char c UNINIT;
2579 loop:
2581 /* Skip white space. */
2582 while (*s < end && (c = *(*s)++, c_isspace (c)))
2585 if (*s >= end)
2586 c = 0;
2587 else if (c_isdigit (c))
2589 int value = 0, digit;
2590 bool overflow = false;
2592 if (c == '0' && *s < end)
2594 c = *(*s)++;
2595 if (c == 'x' || c == 'X')
2597 while (*s < end)
2599 c = *(*s)++;
2600 digit = char_hexdigit (c);
2601 if (digit < 0)
2602 break;
2603 overflow |= INT_MULTIPLY_WRAPV (value, 16, &value);
2604 value += digit;
2607 else if ('0' <= c && c <= '7')
2609 value = c - '0';
2610 while (*s < end
2611 && (c = *(*s)++, '0' <= c && c <= '7'))
2613 overflow |= INT_MULTIPLY_WRAPV (value, 8, &value);
2614 value += c - '0';
2618 else
2620 value = c - '0';
2621 while (*s < end
2622 && (c = *(*s)++, c_isdigit (c)))
2624 overflow |= INT_MULTIPLY_WRAPV (value, 10, &value);
2625 overflow |= INT_ADD_WRAPV (value, c - '0', &value);
2629 if (*s < end)
2630 *s = *s - 1;
2631 *ival = value;
2632 return overflow ? XBM_TK_OVERFLOW : XBM_TK_NUMBER;
2634 else if (c_isalpha (c) || c == '_')
2636 *sval++ = c;
2637 while (*s < end
2638 && (c = *(*s)++, (c_isalnum (c) || c == '_')))
2639 *sval++ = c;
2640 *sval = 0;
2641 if (*s < end)
2642 *s = *s - 1;
2643 return XBM_TK_IDENT;
2645 else if (c == '/' && **s == '*')
2647 /* C-style comment. */
2648 ++*s;
2649 while (**s && (**s != '*' || *(*s + 1) != '/'))
2650 ++*s;
2651 if (**s)
2653 *s += 2;
2654 goto loop;
2658 return c;
2661 #ifdef HAVE_NTGUI
2663 /* Create a Windows bitmap from X bitmap data. */
2664 static HBITMAP
2665 w32_create_pixmap_from_bitmap_data (int width, int height, char *data)
2667 static unsigned char swap_nibble[16]
2668 = { 0x0, 0x8, 0x4, 0xc, /* 0000 1000 0100 1100 */
2669 0x2, 0xa, 0x6, 0xe, /* 0010 1010 0110 1110 */
2670 0x1, 0x9, 0x5, 0xd, /* 0001 1001 0101 1101 */
2671 0x3, 0xb, 0x7, 0xf }; /* 0011 1011 0111 1111 */
2672 int i, j, w1, w2;
2673 unsigned char *bits, *p;
2674 HBITMAP bmp;
2676 w1 = (width + 7) / 8; /* nb of 8bits elt in X bitmap */
2677 w2 = ((width + 15) / 16) * 2; /* nb of 16bits elt in W32 bitmap */
2678 bits = alloca (height * w2);
2679 memset (bits, 0, height * w2);
2680 for (i = 0; i < height; i++)
2682 p = bits + i*w2;
2683 for (j = 0; j < w1; j++)
2685 /* Bitswap XBM bytes to match how Windows does things. */
2686 unsigned char c = *data++;
2687 *p++ = (unsigned char)((swap_nibble[c & 0xf] << 4)
2688 | (swap_nibble[(c>>4) & 0xf]));
2691 bmp = CreateBitmap (width, height, 1, 1, (char *) bits);
2693 return bmp;
2696 static void
2697 convert_mono_to_color_image (struct frame *f, struct image *img,
2698 COLORREF foreground, COLORREF background)
2700 HDC hdc, old_img_dc, new_img_dc;
2701 HGDIOBJ old_prev, new_prev;
2702 HBITMAP new_pixmap;
2704 hdc = get_frame_dc (f);
2705 old_img_dc = CreateCompatibleDC (hdc);
2706 new_img_dc = CreateCompatibleDC (hdc);
2707 new_pixmap = CreateCompatibleBitmap (hdc, img->width, img->height);
2708 release_frame_dc (f, hdc);
2709 old_prev = SelectObject (old_img_dc, img->pixmap);
2710 new_prev = SelectObject (new_img_dc, new_pixmap);
2711 /* Windows convention for mono bitmaps is black = background,
2712 white = foreground. */
2713 SetTextColor (new_img_dc, background);
2714 SetBkColor (new_img_dc, foreground);
2716 BitBlt (new_img_dc, 0, 0, img->width, img->height, old_img_dc,
2717 0, 0, SRCCOPY);
2719 SelectObject (old_img_dc, old_prev);
2720 SelectObject (new_img_dc, new_prev);
2721 DeleteDC (old_img_dc);
2722 DeleteDC (new_img_dc);
2723 DeleteObject (img->pixmap);
2724 if (new_pixmap == 0)
2725 fprintf (stderr, "Failed to convert image to color.\n");
2726 else
2727 img->pixmap = new_pixmap;
2730 #define XBM_BIT_SHUFFLE(b) (~(b))
2732 #else
2734 #define XBM_BIT_SHUFFLE(b) (b)
2736 #endif /* HAVE_NTGUI */
2739 static void
2740 Create_Pixmap_From_Bitmap_Data (struct frame *f, struct image *img, char *data,
2741 RGB_PIXEL_COLOR fg, RGB_PIXEL_COLOR bg,
2742 bool non_default_colors)
2744 #ifdef HAVE_NTGUI
2745 img->pixmap
2746 = w32_create_pixmap_from_bitmap_data (img->width, img->height, data);
2748 /* If colors were specified, transfer the bitmap to a color one. */
2749 if (non_default_colors)
2750 convert_mono_to_color_image (f, img, fg, bg);
2752 #elif defined (HAVE_NS)
2753 img->pixmap = ns_image_from_XBM (data, img->width, img->height, fg, bg);
2755 #else
2756 img->pixmap =
2757 (x_check_image_size (0, img->width, img->height)
2758 ? XCreatePixmapFromBitmapData (FRAME_X_DISPLAY (f),
2759 FRAME_X_DRAWABLE (f),
2760 data,
2761 img->width, img->height,
2762 fg, bg,
2763 DefaultDepthOfScreen (FRAME_X_SCREEN (f)))
2764 : NO_PIXMAP);
2765 #endif /* !HAVE_NTGUI && !HAVE_NS */
2770 /* Replacement for XReadBitmapFileData which isn't available under old
2771 X versions. CONTENTS is a pointer to a buffer to parse; END is the
2772 buffer's end. Set *WIDTH and *HEIGHT to the width and height of
2773 the image. Return in *DATA the bitmap data allocated with xmalloc.
2774 Value is true if successful. DATA null means just test if
2775 CONTENTS looks like an in-memory XBM file. If INHIBIT_IMAGE_ERROR,
2776 inhibit the call to image_error when the image size is invalid (the
2777 bitmap remains unread). */
2779 static bool
2780 xbm_read_bitmap_data (struct frame *f, char *contents, char *end,
2781 int *width, int *height, char **data,
2782 bool inhibit_image_error)
2784 char *s = contents;
2785 char buffer[BUFSIZ];
2786 bool padding_p = 0;
2787 bool v10 = 0;
2788 int bytes_per_line, i, nbytes;
2789 char *p;
2790 int value;
2791 int LA1;
2793 #define match() \
2794 LA1 = xbm_scan (&s, end, buffer, &value)
2796 #define expect(TOKEN) \
2797 do \
2799 if (LA1 != (TOKEN)) \
2800 goto failure; \
2801 match (); \
2803 while (0)
2805 #define expect_ident(IDENT) \
2806 if (LA1 == XBM_TK_IDENT && strcmp (buffer, (IDENT)) == 0) \
2807 match (); \
2808 else \
2809 goto failure
2811 *width = *height = -1;
2812 if (data)
2813 *data = NULL;
2814 LA1 = xbm_scan (&s, end, buffer, &value);
2816 /* Parse defines for width, height and hot-spots. */
2817 while (LA1 == '#')
2819 match ();
2820 expect_ident ("define");
2821 expect (XBM_TK_IDENT);
2823 if (LA1 == XBM_TK_NUMBER)
2825 char *q = strrchr (buffer, '_');
2826 q = q ? q + 1 : buffer;
2827 if (strcmp (q, "width") == 0)
2828 *width = value;
2829 else if (strcmp (q, "height") == 0)
2830 *height = value;
2832 expect (XBM_TK_NUMBER);
2835 if (!check_image_size (f, *width, *height))
2837 if (!inhibit_image_error)
2838 image_size_error ();
2839 goto failure;
2841 else if (data == NULL)
2842 goto success;
2844 /* Parse bits. Must start with `static'. */
2845 expect_ident ("static");
2846 if (LA1 == XBM_TK_IDENT)
2848 if (strcmp (buffer, "unsigned") == 0)
2850 match ();
2851 expect_ident ("char");
2853 else if (strcmp (buffer, "short") == 0)
2855 match ();
2856 v10 = 1;
2857 if (*width % 16 && *width % 16 < 9)
2858 padding_p = 1;
2860 else if (strcmp (buffer, "char") == 0)
2861 match ();
2862 else
2863 goto failure;
2865 else
2866 goto failure;
2868 expect (XBM_TK_IDENT);
2869 expect ('[');
2870 expect (']');
2871 expect ('=');
2872 expect ('{');
2874 if (! x_check_image_size (0, *width, *height))
2876 if (!inhibit_image_error)
2877 image_error ("Image too large (%dx%d)",
2878 make_number (*width), make_number (*height));
2879 goto failure;
2881 bytes_per_line = (*width + 7) / 8 + padding_p;
2882 nbytes = bytes_per_line * *height;
2883 p = *data = xmalloc (nbytes);
2885 if (v10)
2887 for (i = 0; i < nbytes; i += 2)
2889 int val = value;
2890 expect (XBM_TK_NUMBER);
2892 *p++ = XBM_BIT_SHUFFLE (val);
2893 if (!padding_p || ((i + 2) % bytes_per_line))
2894 *p++ = XBM_BIT_SHUFFLE (value >> 8);
2896 if (LA1 == ',' || LA1 == '}')
2897 match ();
2898 else
2899 goto failure;
2902 else
2904 for (i = 0; i < nbytes; ++i)
2906 int val = value;
2907 expect (XBM_TK_NUMBER);
2909 *p++ = XBM_BIT_SHUFFLE (val);
2911 if (LA1 == ',' || LA1 == '}')
2912 match ();
2913 else
2914 goto failure;
2918 success:
2919 return 1;
2921 failure:
2923 if (data && *data)
2925 xfree (*data);
2926 *data = NULL;
2928 return 0;
2930 #undef match
2931 #undef expect
2932 #undef expect_ident
2936 /* Load XBM image IMG which will be displayed on frame F from buffer
2937 CONTENTS. END is the end of the buffer. Value is true if
2938 successful. */
2940 static bool
2941 xbm_load_image (struct frame *f, struct image *img, char *contents, char *end)
2943 bool rc;
2944 char *data;
2945 bool success_p = 0;
2947 rc = xbm_read_bitmap_data (f, contents, end, &img->width, &img->height,
2948 &data, 0);
2949 if (rc)
2951 unsigned long foreground = FRAME_FOREGROUND_PIXEL (f);
2952 unsigned long background = FRAME_BACKGROUND_PIXEL (f);
2953 bool non_default_colors = 0;
2954 Lisp_Object value;
2956 eassert (img->width > 0 && img->height > 0);
2958 /* Get foreground and background colors, maybe allocate colors. */
2959 value = image_spec_value (img->spec, QCforeground, NULL);
2960 if (!NILP (value))
2962 foreground = x_alloc_image_color (f, img, value, foreground);
2963 non_default_colors = 1;
2965 value = image_spec_value (img->spec, QCbackground, NULL);
2966 if (!NILP (value))
2968 background = x_alloc_image_color (f, img, value, background);
2969 img->background = background;
2970 img->background_valid = 1;
2971 non_default_colors = 1;
2974 Create_Pixmap_From_Bitmap_Data (f, img, data,
2975 foreground, background,
2976 non_default_colors);
2977 xfree (data);
2979 if (img->pixmap == NO_PIXMAP)
2981 x_clear_image (f, img);
2982 image_error ("Unable to create X pixmap for `%s'", img->spec);
2984 else
2985 success_p = 1;
2987 else
2988 image_error ("Error loading XBM image `%s'", img->spec);
2990 return success_p;
2994 /* Value is true if DATA looks like an in-memory XBM file. */
2996 static bool
2997 xbm_file_p (Lisp_Object data)
2999 int w, h;
3000 return (STRINGP (data)
3001 && xbm_read_bitmap_data (NULL, SSDATA (data),
3002 SSDATA (data) + SBYTES (data),
3003 &w, &h, NULL, 1));
3007 /* Fill image IMG which is used on frame F with pixmap data. Value is
3008 true if successful. */
3010 static bool
3011 xbm_load (struct frame *f, struct image *img)
3013 bool success_p = 0;
3014 Lisp_Object file_name;
3016 eassert (xbm_image_p (img->spec));
3018 /* If IMG->spec specifies a file name, create a non-file spec from it. */
3019 file_name = image_spec_value (img->spec, QCfile, NULL);
3020 if (STRINGP (file_name))
3022 int fd;
3023 Lisp_Object file = x_find_image_fd (file_name, &fd);
3024 if (!STRINGP (file))
3026 image_error ("Cannot find image file `%s'", file_name);
3027 return 0;
3030 ptrdiff_t size;
3031 char *contents = slurp_file (fd, &size);
3032 if (contents == NULL)
3034 image_error ("Error loading XBM image `%s'", file);
3035 return 0;
3038 success_p = xbm_load_image (f, img, contents, contents + size);
3039 xfree (contents);
3041 else
3043 struct image_keyword fmt[XBM_LAST];
3044 Lisp_Object data;
3045 unsigned long foreground = FRAME_FOREGROUND_PIXEL (f);
3046 unsigned long background = FRAME_BACKGROUND_PIXEL (f);
3047 bool non_default_colors = 0;
3048 char *bits;
3049 bool parsed_p;
3050 bool in_memory_file_p = 0;
3052 /* See if data looks like an in-memory XBM file. */
3053 data = image_spec_value (img->spec, QCdata, NULL);
3054 in_memory_file_p = xbm_file_p (data);
3056 /* Parse the image specification. */
3057 memcpy (fmt, xbm_format, sizeof fmt);
3058 parsed_p = parse_image_spec (img->spec, fmt, XBM_LAST, Qxbm);
3059 eassert (parsed_p);
3061 /* Get specified width, and height. */
3062 if (!in_memory_file_p)
3064 img->width = XFASTINT (fmt[XBM_WIDTH].value);
3065 img->height = XFASTINT (fmt[XBM_HEIGHT].value);
3066 eassert (img->width > 0 && img->height > 0);
3067 if (!check_image_size (f, img->width, img->height))
3069 image_size_error ();
3070 return 0;
3074 /* Get foreground and background colors, maybe allocate colors. */
3075 if (fmt[XBM_FOREGROUND].count
3076 && STRINGP (fmt[XBM_FOREGROUND].value))
3078 foreground = x_alloc_image_color (f, img, fmt[XBM_FOREGROUND].value,
3079 foreground);
3080 non_default_colors = 1;
3083 if (fmt[XBM_BACKGROUND].count
3084 && STRINGP (fmt[XBM_BACKGROUND].value))
3086 background = x_alloc_image_color (f, img, fmt[XBM_BACKGROUND].value,
3087 background);
3088 non_default_colors = 1;
3091 if (in_memory_file_p)
3092 success_p = xbm_load_image (f, img, SSDATA (data),
3093 SSDATA (data) + SBYTES (data));
3094 else
3096 USE_SAFE_ALLOCA;
3098 if (VECTORP (data))
3100 int i;
3101 char *p;
3102 int nbytes = (img->width + CHAR_BIT - 1) / CHAR_BIT;
3104 SAFE_NALLOCA (bits, nbytes, img->height);
3105 p = bits;
3106 for (i = 0; i < img->height; ++i, p += nbytes)
3108 Lisp_Object line = AREF (data, i);
3109 if (STRINGP (line))
3110 memcpy (p, SDATA (line), nbytes);
3111 else
3112 memcpy (p, bool_vector_data (line), nbytes);
3115 else if (STRINGP (data))
3116 bits = SSDATA (data);
3117 else
3118 bits = (char *) bool_vector_data (data);
3120 #ifdef HAVE_NTGUI
3122 char *invertedBits;
3123 int nbytes, i;
3124 /* Windows mono bitmaps are reversed compared with X. */
3125 invertedBits = bits;
3126 nbytes = (img->width + CHAR_BIT - 1) / CHAR_BIT * img->height;
3127 SAFE_NALLOCA (bits, 1, nbytes);
3128 for (i = 0; i < nbytes; i++)
3129 bits[i] = XBM_BIT_SHUFFLE (invertedBits[i]);
3131 #endif
3132 /* Create the pixmap. */
3134 if (x_check_image_size (0, img->width, img->height))
3135 Create_Pixmap_From_Bitmap_Data (f, img, bits,
3136 foreground, background,
3137 non_default_colors);
3138 else
3139 img->pixmap = NO_PIXMAP;
3141 if (img->pixmap)
3142 success_p = 1;
3143 else
3145 image_error ("Unable to create pixmap for XBM image `%s'",
3146 img->spec);
3147 x_clear_image (f, img);
3150 SAFE_FREE ();
3154 return success_p;
3159 /***********************************************************************
3160 XPM images
3161 ***********************************************************************/
3163 #if defined (HAVE_XPM) || defined (HAVE_NS)
3165 static bool xpm_image_p (Lisp_Object object);
3166 static bool xpm_load (struct frame *f, struct image *img);
3168 #endif /* HAVE_XPM || HAVE_NS */
3170 #ifdef HAVE_XPM
3171 #ifdef HAVE_NTGUI
3172 /* Indicate to xpm.h that we don't have Xlib. */
3173 #define FOR_MSW
3174 /* simx.h in xpm defines XColor and XImage differently than Emacs. */
3175 /* It also defines Display the same way as Emacs, but gcc 3.3 still barfs. */
3176 #define XColor xpm_XColor
3177 #define XImage xpm_XImage
3178 #define Display xpm_Display
3179 #ifdef CYGWIN
3180 #include "noX/xpm.h"
3181 #else /* not CYGWIN */
3182 #include "X11/xpm.h"
3183 #endif /* not CYGWIN */
3184 #undef FOR_MSW
3185 #undef XColor
3186 #undef XImage
3187 #undef Display
3188 #else /* not HAVE_NTGUI */
3189 #include "X11/xpm.h"
3190 #endif /* not HAVE_NTGUI */
3191 #endif /* HAVE_XPM */
3193 #if defined (HAVE_XPM) || defined (HAVE_NS)
3195 /* Indices of image specification fields in xpm_format, below. */
3197 enum xpm_keyword_index
3199 XPM_TYPE,
3200 XPM_FILE,
3201 XPM_DATA,
3202 XPM_ASCENT,
3203 XPM_MARGIN,
3204 XPM_RELIEF,
3205 XPM_ALGORITHM,
3206 XPM_HEURISTIC_MASK,
3207 XPM_MASK,
3208 XPM_COLOR_SYMBOLS,
3209 XPM_BACKGROUND,
3210 XPM_LAST
3213 /* Vector of image_keyword structures describing the format
3214 of valid XPM image specifications. */
3216 static const struct image_keyword xpm_format[XPM_LAST] =
3218 {":type", IMAGE_SYMBOL_VALUE, 1},
3219 {":file", IMAGE_STRING_VALUE, 0},
3220 {":data", IMAGE_STRING_VALUE, 0},
3221 {":ascent", IMAGE_ASCENT_VALUE, 0},
3222 {":margin", IMAGE_NON_NEGATIVE_INTEGER_VALUE_OR_PAIR, 0},
3223 {":relief", IMAGE_INTEGER_VALUE, 0},
3224 {":conversion", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
3225 {":heuristic-mask", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
3226 {":mask", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
3227 {":color-symbols", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
3228 {":background", IMAGE_STRING_OR_NIL_VALUE, 0}
3231 #if defined HAVE_NTGUI && defined WINDOWSNT
3232 static bool init_xpm_functions (void);
3233 #else
3234 #define init_xpm_functions NULL
3235 #endif
3237 /* Structure describing the image type XPM. */
3239 static struct image_type xpm_type =
3241 SYMBOL_INDEX (Qxpm),
3242 xpm_image_p,
3243 xpm_load,
3244 x_clear_image,
3245 init_xpm_functions,
3246 NULL
3249 #ifdef HAVE_X_WINDOWS
3251 /* Define ALLOC_XPM_COLORS if we can use Emacs' own color allocation
3252 functions for allocating image colors. Our own functions handle
3253 color allocation failures more gracefully than the ones on the XPM
3254 lib. */
3256 #ifndef USE_CAIRO
3257 #if defined XpmAllocColor && defined XpmFreeColors && defined XpmColorClosure
3258 #define ALLOC_XPM_COLORS
3259 #endif
3260 #endif /* USE_CAIRO */
3261 #endif /* HAVE_X_WINDOWS */
3263 #ifdef ALLOC_XPM_COLORS
3265 static struct xpm_cached_color *xpm_cache_color (struct frame *, char *,
3266 XColor *, int);
3268 /* An entry in a hash table used to cache color definitions of named
3269 colors. This cache is necessary to speed up XPM image loading in
3270 case we do color allocations ourselves. Without it, we would need
3271 a call to XParseColor per pixel in the image.
3273 FIXME Now that we're using x_parse_color and its cache, reevaluate
3274 the need for this caching layer. */
3276 struct xpm_cached_color
3278 /* Next in collision chain. */
3279 struct xpm_cached_color *next;
3281 /* Color definition (RGB and pixel color). */
3282 XColor color;
3284 /* Color name. */
3285 char name[FLEXIBLE_ARRAY_MEMBER];
3288 /* The hash table used for the color cache, and its bucket vector
3289 size. */
3291 #define XPM_COLOR_CACHE_BUCKETS 1001
3292 static struct xpm_cached_color **xpm_color_cache;
3294 /* Initialize the color cache. */
3296 static void
3297 xpm_init_color_cache (struct frame *f, XpmAttributes *attrs)
3299 size_t nbytes = XPM_COLOR_CACHE_BUCKETS * sizeof *xpm_color_cache;
3300 xpm_color_cache = xzalloc (nbytes);
3301 init_color_table ();
3303 if (attrs->valuemask & XpmColorSymbols)
3305 int i;
3306 XColor color;
3308 for (i = 0; i < attrs->numsymbols; ++i)
3309 if (x_parse_color (f, attrs->colorsymbols[i].value, &color))
3311 color.pixel = lookup_rgb_color (f, color.red, color.green,
3312 color.blue);
3313 xpm_cache_color (f, attrs->colorsymbols[i].name, &color, -1);
3318 /* Free the color cache. */
3320 static void
3321 xpm_free_color_cache (void)
3323 struct xpm_cached_color *p, *next;
3324 int i;
3326 for (i = 0; i < XPM_COLOR_CACHE_BUCKETS; ++i)
3327 for (p = xpm_color_cache[i]; p; p = next)
3329 next = p->next;
3330 xfree (p);
3333 xfree (xpm_color_cache);
3334 xpm_color_cache = NULL;
3335 free_color_table ();
3338 /* Return the bucket index for color named COLOR_NAME in the color
3339 cache. */
3341 static int
3342 xpm_color_bucket (char *color_name)
3344 EMACS_UINT hash = hash_string (color_name, strlen (color_name));
3345 return hash % XPM_COLOR_CACHE_BUCKETS;
3349 /* On frame F, cache values COLOR for color with name COLOR_NAME.
3350 BUCKET, if >= 0, is a precomputed bucket index. Value is the cache
3351 entry added. */
3353 static struct xpm_cached_color *
3354 xpm_cache_color (struct frame *f, char *color_name, XColor *color, int bucket)
3356 size_t nbytes;
3357 struct xpm_cached_color *p;
3359 if (bucket < 0)
3360 bucket = xpm_color_bucket (color_name);
3362 nbytes = FLEXSIZEOF (struct xpm_cached_color, name, strlen (color_name) + 1);
3363 p = xmalloc (nbytes);
3364 strcpy (p->name, color_name);
3365 p->color = *color;
3366 p->next = xpm_color_cache[bucket];
3367 xpm_color_cache[bucket] = p;
3368 return p;
3371 /* Look up color COLOR_NAME for frame F in the color cache. If found,
3372 return the cached definition in *COLOR. Otherwise, make a new
3373 entry in the cache and allocate the color. Value is false if color
3374 allocation failed. */
3376 static bool
3377 xpm_lookup_color (struct frame *f, char *color_name, XColor *color)
3379 struct xpm_cached_color *p;
3380 int h = xpm_color_bucket (color_name);
3382 for (p = xpm_color_cache[h]; p; p = p->next)
3383 if (strcmp (p->name, color_name) == 0)
3384 break;
3386 if (p != NULL)
3387 *color = p->color;
3388 else if (x_parse_color (f, color_name, color))
3390 color->pixel = lookup_rgb_color (f, color->red, color->green,
3391 color->blue);
3392 p = xpm_cache_color (f, color_name, color, h);
3394 /* You get `opaque' at least from ImageMagick converting pbm to xpm
3395 with transparency, and it's useful. */
3396 else if (strcmp ("opaque", color_name) == 0)
3398 memset (color, 0, sizeof (XColor)); /* Is this necessary/correct? */
3399 color->pixel = FRAME_FOREGROUND_PIXEL (f);
3400 p = xpm_cache_color (f, color_name, color, h);
3403 return p != NULL;
3407 /* Callback for allocating color COLOR_NAME. Called from the XPM lib.
3408 CLOSURE is a pointer to the frame on which we allocate the
3409 color. Return in *COLOR the allocated color. Value is non-zero
3410 if successful. */
3412 static int
3413 xpm_alloc_color (Display *dpy, Colormap cmap, char *color_name, XColor *color,
3414 void *closure)
3416 return xpm_lookup_color (closure, color_name, color);
3420 /* Callback for freeing NPIXELS colors contained in PIXELS. CLOSURE
3421 is a pointer to the frame on which we allocate the color. Value is
3422 non-zero if successful. */
3424 static int
3425 xpm_free_colors (Display *dpy, Colormap cmap, Pixel *pixels, int npixels, void *closure)
3427 return 1;
3430 #endif /* ALLOC_XPM_COLORS */
3433 #ifdef WINDOWSNT
3435 /* XPM library details. */
3437 DEF_DLL_FN (void, XpmFreeAttributes, (XpmAttributes *));
3438 DEF_DLL_FN (int, XpmCreateImageFromBuffer,
3439 (Display *, char *, xpm_XImage **,
3440 xpm_XImage **, XpmAttributes *));
3441 DEF_DLL_FN (int, XpmReadFileToImage,
3442 (Display *, char *, xpm_XImage **,
3443 xpm_XImage **, XpmAttributes *));
3444 DEF_DLL_FN (void, XImageFree, (xpm_XImage *));
3446 static bool
3447 init_xpm_functions (void)
3449 HMODULE library;
3451 if (!(library = w32_delayed_load (Qxpm)))
3452 return 0;
3454 LOAD_DLL_FN (library, XpmFreeAttributes);
3455 LOAD_DLL_FN (library, XpmCreateImageFromBuffer);
3456 LOAD_DLL_FN (library, XpmReadFileToImage);
3457 LOAD_DLL_FN (library, XImageFree);
3458 return 1;
3461 # undef XImageFree
3462 # undef XpmCreateImageFromBuffer
3463 # undef XpmFreeAttributes
3464 # undef XpmReadFileToImage
3466 # define XImageFree fn_XImageFree
3467 # define XpmCreateImageFromBuffer fn_XpmCreateImageFromBuffer
3468 # define XpmFreeAttributes fn_XpmFreeAttributes
3469 # define XpmReadFileToImage fn_XpmReadFileToImage
3471 #endif /* WINDOWSNT */
3473 /* Value is true if COLOR_SYMBOLS is a valid color symbols list
3474 for XPM images. Such a list must consist of conses whose car and
3475 cdr are strings. */
3477 static bool
3478 xpm_valid_color_symbols_p (Lisp_Object color_symbols)
3480 while (CONSP (color_symbols))
3482 Lisp_Object sym = XCAR (color_symbols);
3483 if (!CONSP (sym)
3484 || !STRINGP (XCAR (sym))
3485 || !STRINGP (XCDR (sym)))
3486 break;
3487 color_symbols = XCDR (color_symbols);
3490 return NILP (color_symbols);
3494 /* Value is true if OBJECT is a valid XPM image specification. */
3496 static bool
3497 xpm_image_p (Lisp_Object object)
3499 struct image_keyword fmt[XPM_LAST];
3500 memcpy (fmt, xpm_format, sizeof fmt);
3501 return (parse_image_spec (object, fmt, XPM_LAST, Qxpm)
3502 /* Either `:file' or `:data' must be present. */
3503 && fmt[XPM_FILE].count + fmt[XPM_DATA].count == 1
3504 /* Either no `:color-symbols' or it's a list of conses
3505 whose car and cdr are strings. */
3506 && (fmt[XPM_COLOR_SYMBOLS].count == 0
3507 || xpm_valid_color_symbols_p (fmt[XPM_COLOR_SYMBOLS].value)));
3510 #endif /* HAVE_XPM || HAVE_NS */
3512 #if defined HAVE_XPM && defined HAVE_X_WINDOWS && !defined USE_GTK
3513 ptrdiff_t
3514 x_create_bitmap_from_xpm_data (struct frame *f, const char **bits)
3516 Display_Info *dpyinfo = FRAME_DISPLAY_INFO (f);
3517 ptrdiff_t id;
3518 int rc;
3519 XpmAttributes attrs;
3520 Pixmap bitmap, mask;
3522 memset (&attrs, 0, sizeof attrs);
3524 attrs.visual = FRAME_X_VISUAL (f);
3525 attrs.colormap = FRAME_X_COLORMAP (f);
3526 attrs.valuemask |= XpmVisual;
3527 attrs.valuemask |= XpmColormap;
3529 #ifdef ALLOC_XPM_COLORS
3530 attrs.color_closure = f;
3531 attrs.alloc_color = xpm_alloc_color;
3532 attrs.free_colors = xpm_free_colors;
3533 attrs.valuemask |= XpmAllocColor | XpmFreeColors | XpmColorClosure;
3534 xpm_init_color_cache (f, &attrs);
3535 #endif
3537 rc = XpmCreatePixmapFromData (FRAME_X_DISPLAY (f), FRAME_X_DRAWABLE (f),
3538 (char **) bits, &bitmap, &mask, &attrs);
3539 if (rc != XpmSuccess)
3541 XpmFreeAttributes (&attrs);
3542 return -1;
3545 id = x_allocate_bitmap_record (f);
3546 dpyinfo->bitmaps[id - 1].pixmap = bitmap;
3547 dpyinfo->bitmaps[id - 1].have_mask = true;
3548 dpyinfo->bitmaps[id - 1].mask = mask;
3549 dpyinfo->bitmaps[id - 1].file = NULL;
3550 dpyinfo->bitmaps[id - 1].height = attrs.height;
3551 dpyinfo->bitmaps[id - 1].width = attrs.width;
3552 dpyinfo->bitmaps[id - 1].depth = attrs.depth;
3553 dpyinfo->bitmaps[id - 1].refcount = 1;
3555 #ifdef ALLOC_XPM_COLORS
3556 xpm_free_color_cache ();
3557 #endif
3558 XpmFreeAttributes (&attrs);
3559 return id;
3561 #endif /* defined (HAVE_XPM) && defined (HAVE_X_WINDOWS) */
3563 /* Load image IMG which will be displayed on frame F. Value is
3564 true if successful. */
3566 #ifdef HAVE_XPM
3568 static bool
3569 xpm_load (struct frame *f, struct image *img)
3571 int rc;
3572 XpmAttributes attrs;
3573 Lisp_Object specified_file, color_symbols;
3574 USE_SAFE_ALLOCA;
3576 #ifdef HAVE_NTGUI
3577 HDC hdc;
3578 xpm_XImage * xpm_image = NULL, * xpm_mask = NULL;
3579 #endif /* HAVE_NTGUI */
3581 /* Configure the XPM lib. Use the visual of frame F. Allocate
3582 close colors. Return colors allocated. */
3583 memset (&attrs, 0, sizeof attrs);
3585 #ifndef HAVE_NTGUI
3586 attrs.visual = FRAME_X_VISUAL (f);
3587 attrs.colormap = FRAME_X_COLORMAP (f);
3588 attrs.valuemask |= XpmVisual;
3589 attrs.valuemask |= XpmColormap;
3590 #endif /* HAVE_NTGUI */
3592 #ifdef ALLOC_XPM_COLORS
3593 /* Allocate colors with our own functions which handle
3594 failing color allocation more gracefully. */
3595 attrs.color_closure = f;
3596 attrs.alloc_color = xpm_alloc_color;
3597 attrs.free_colors = xpm_free_colors;
3598 attrs.valuemask |= XpmAllocColor | XpmFreeColors | XpmColorClosure;
3599 #else /* not ALLOC_XPM_COLORS */
3600 /* Let the XPM lib allocate colors. */
3601 attrs.valuemask |= XpmReturnAllocPixels;
3602 #ifdef XpmAllocCloseColors
3603 attrs.alloc_close_colors = 1;
3604 attrs.valuemask |= XpmAllocCloseColors;
3605 #else /* not XpmAllocCloseColors */
3606 attrs.closeness = 600;
3607 attrs.valuemask |= XpmCloseness;
3608 #endif /* not XpmAllocCloseColors */
3609 #endif /* ALLOC_XPM_COLORS */
3611 /* If image specification contains symbolic color definitions, add
3612 these to `attrs'. */
3613 color_symbols = image_spec_value (img->spec, QCcolor_symbols, NULL);
3614 if (CONSP (color_symbols))
3616 Lisp_Object tail;
3617 XpmColorSymbol *xpm_syms;
3618 ptrdiff_t i, size;
3620 attrs.valuemask |= XpmColorSymbols;
3622 /* Count number of symbols. */
3623 attrs.numsymbols = 0;
3624 for (tail = color_symbols; CONSP (tail); tail = XCDR (tail))
3625 ++attrs.numsymbols;
3627 /* Allocate an XpmColorSymbol array. */
3628 SAFE_NALLOCA (xpm_syms, 1, attrs.numsymbols);
3629 size = attrs.numsymbols * sizeof *xpm_syms;
3630 memset (xpm_syms, 0, size);
3631 attrs.colorsymbols = xpm_syms;
3633 /* Fill the color symbol array. */
3634 for (tail = color_symbols, i = 0;
3635 CONSP (tail);
3636 ++i, tail = XCDR (tail))
3638 Lisp_Object name;
3639 Lisp_Object color;
3640 char *empty_string = (char *) "";
3642 if (!CONSP (XCAR (tail)))
3644 xpm_syms[i].name = empty_string;
3645 xpm_syms[i].value = empty_string;
3646 continue;
3648 name = XCAR (XCAR (tail));
3649 color = XCDR (XCAR (tail));
3650 if (STRINGP (name))
3651 SAFE_ALLOCA_STRING (xpm_syms[i].name, name);
3652 else
3653 xpm_syms[i].name = empty_string;
3654 if (STRINGP (color))
3655 SAFE_ALLOCA_STRING (xpm_syms[i].value, color);
3656 else
3657 xpm_syms[i].value = empty_string;
3661 /* Create a pixmap for the image, either from a file, or from a
3662 string buffer containing data in the same format as an XPM file. */
3663 #ifdef ALLOC_XPM_COLORS
3664 xpm_init_color_cache (f, &attrs);
3665 #endif
3667 specified_file = image_spec_value (img->spec, QCfile, NULL);
3669 #ifdef HAVE_NTGUI
3671 HDC frame_dc = get_frame_dc (f);
3672 hdc = CreateCompatibleDC (frame_dc);
3673 release_frame_dc (f, frame_dc);
3675 #endif /* HAVE_NTGUI */
3677 if (STRINGP (specified_file))
3679 Lisp_Object file = x_find_image_file (specified_file);
3680 if (!STRINGP (file))
3682 image_error ("Cannot find image file `%s'", specified_file);
3683 #ifdef ALLOC_XPM_COLORS
3684 xpm_free_color_cache ();
3685 #endif
3686 SAFE_FREE ();
3687 return 0;
3690 file = ENCODE_FILE (file);
3691 #ifdef HAVE_NTGUI
3692 #ifdef WINDOWSNT
3693 /* FILE is encoded in UTF-8, but image libraries on Windows
3694 support neither UTF-8 nor UTF-16 encoded file names. So we
3695 need to re-encode it in ANSI. */
3696 file = ansi_encode_filename (file);
3697 #endif
3698 /* XpmReadFileToPixmap is not available in the Windows port of
3699 libxpm. But XpmReadFileToImage almost does what we want. */
3700 rc = XpmReadFileToImage (&hdc, SSDATA (file),
3701 &xpm_image, &xpm_mask,
3702 &attrs);
3703 #else
3704 rc = XpmReadFileToImage (FRAME_X_DISPLAY (f), SSDATA (file),
3705 &img->ximg, &img->mask_img,
3706 &attrs);
3707 #endif /* HAVE_NTGUI */
3709 else
3711 Lisp_Object buffer = image_spec_value (img->spec, QCdata, NULL);
3712 if (!STRINGP (buffer))
3714 image_error ("Invalid image data `%s'", buffer);
3715 #ifdef ALLOC_XPM_COLORS
3716 xpm_free_color_cache ();
3717 #endif
3718 SAFE_FREE ();
3719 return 0;
3721 #ifdef HAVE_NTGUI
3722 /* XpmCreatePixmapFromBuffer is not available in the Windows port
3723 of libxpm. But XpmCreateImageFromBuffer almost does what we want. */
3724 rc = XpmCreateImageFromBuffer (&hdc, SSDATA (buffer),
3725 &xpm_image, &xpm_mask,
3726 &attrs);
3727 #else
3728 rc = XpmCreateImageFromBuffer (FRAME_X_DISPLAY (f), SSDATA (buffer),
3729 &img->ximg, &img->mask_img,
3730 &attrs);
3731 #endif /* HAVE_NTGUI */
3734 #ifdef USE_CAIRO
3735 /* Load very specific Xpm:s. */
3736 if (rc == XpmSuccess
3737 && img->ximg->format == ZPixmap
3738 && img->ximg->bits_per_pixel == 32
3739 && (! img->mask_img || img->mask_img->bits_per_pixel == 1))
3741 int width = img->ximg->width;
3742 int height = img->ximg->height;
3743 void *data = xmalloc (width * height * 4);
3744 int i;
3745 uint32_t *od = data;
3746 uint32_t *id = (uint32_t *) img->ximg->data;
3747 char *mid = img->mask_img ? img->mask_img->data : 0;
3748 uint32_t bgcolor = get_spec_bg_or_alpha_as_argb (img, f);
3750 for (i = 0; i < height; ++i)
3752 int k;
3753 for (k = 0; k < width; ++k)
3755 int idx = i * img->ximg->bytes_per_line/4 + k;
3756 int maskidx = mid ? i * img->mask_img->bytes_per_line + k/8 : 0;
3757 int mask = mid ? mid[maskidx] & (1 << (k % 8)) : 1;
3759 if (mask) od[idx] = id[idx] + 0xff000000; /* ff => full alpha */
3760 else od[idx] = bgcolor;
3764 create_cairo_image_surface (img, data, width, height);
3766 else
3768 rc = XpmFileInvalid;
3769 x_clear_image (f, img);
3771 #else
3772 #ifdef HAVE_X_WINDOWS
3773 if (rc == XpmSuccess)
3775 img->pixmap = XCreatePixmap (FRAME_X_DISPLAY (f), FRAME_X_DRAWABLE (f),
3776 img->ximg->width, img->ximg->height,
3777 img->ximg->depth);
3778 if (img->pixmap == NO_PIXMAP)
3780 x_clear_image (f, img);
3781 rc = XpmNoMemory;
3783 else if (img->mask_img)
3785 img->mask = XCreatePixmap (FRAME_X_DISPLAY (f), FRAME_X_DRAWABLE (f),
3786 img->mask_img->width,
3787 img->mask_img->height,
3788 img->mask_img->depth);
3789 if (img->mask == NO_PIXMAP)
3791 x_clear_image (f, img);
3792 rc = XpmNoMemory;
3796 #endif
3797 #endif /* ! USE_CAIRO */
3799 if (rc == XpmSuccess)
3801 #if defined (COLOR_TABLE_SUPPORT) && defined (ALLOC_XPM_COLORS)
3802 img->colors = colors_in_color_table (&img->ncolors);
3803 #else /* not ALLOC_XPM_COLORS */
3804 int i;
3806 #ifdef HAVE_NTGUI
3807 /* W32 XPM uses XImage to wrap what W32 Emacs calls a Pixmap,
3808 plus some duplicate attributes. */
3809 if (xpm_image && xpm_image->bitmap)
3811 img->pixmap = xpm_image->bitmap;
3812 /* XImageFree in libXpm frees XImage struct without destroying
3813 the bitmap, which is what we want. */
3814 XImageFree (xpm_image);
3816 if (xpm_mask && xpm_mask->bitmap)
3818 /* The mask appears to be inverted compared with what we expect.
3819 TODO: invert our expectations. See other places where we
3820 have to invert bits because our idea of masks is backwards. */
3821 HGDIOBJ old_obj;
3822 old_obj = SelectObject (hdc, xpm_mask->bitmap);
3824 PatBlt (hdc, 0, 0, xpm_mask->width, xpm_mask->height, DSTINVERT);
3825 SelectObject (hdc, old_obj);
3827 img->mask = xpm_mask->bitmap;
3828 XImageFree (xpm_mask);
3829 DeleteDC (hdc);
3832 DeleteDC (hdc);
3833 #endif /* HAVE_NTGUI */
3835 /* Remember allocated colors. */
3836 img->colors = xnmalloc (attrs.nalloc_pixels, sizeof *img->colors);
3837 img->ncolors = attrs.nalloc_pixels;
3838 for (i = 0; i < attrs.nalloc_pixels; ++i)
3840 img->colors[i] = attrs.alloc_pixels[i];
3841 #ifdef DEBUG_X_COLORS
3842 register_color (img->colors[i]);
3843 #endif
3845 #endif /* not ALLOC_XPM_COLORS */
3847 img->width = attrs.width;
3848 img->height = attrs.height;
3849 eassert (img->width > 0 && img->height > 0);
3851 /* The call to XpmFreeAttributes below frees attrs.alloc_pixels. */
3852 XpmFreeAttributes (&attrs);
3854 #ifdef HAVE_X_WINDOWS
3855 /* Maybe fill in the background field while we have ximg handy. */
3856 IMAGE_BACKGROUND (img, f, img->ximg);
3857 if (img->mask_img)
3858 /* Fill in the background_transparent field while we have the
3859 mask handy. */
3860 image_background_transparent (img, f, img->mask_img);
3861 #endif
3863 else
3865 #ifdef HAVE_NTGUI
3866 DeleteDC (hdc);
3867 #endif /* HAVE_NTGUI */
3869 switch (rc)
3871 case XpmOpenFailed:
3872 image_error ("Error opening XPM file (%s)", img->spec);
3873 break;
3875 case XpmFileInvalid:
3876 image_error ("Invalid XPM file (%s)", img->spec);
3877 break;
3879 case XpmNoMemory:
3880 image_error ("Out of memory (%s)", img->spec);
3881 break;
3883 case XpmColorFailed:
3884 image_error ("Color allocation error (%s)", img->spec);
3885 break;
3887 default:
3888 image_error ("Unknown error (%s)", img->spec);
3889 break;
3893 #ifdef ALLOC_XPM_COLORS
3894 xpm_free_color_cache ();
3895 #endif
3896 SAFE_FREE ();
3897 return rc == XpmSuccess;
3900 #endif /* HAVE_XPM */
3902 #if defined (HAVE_NS) && !defined (HAVE_XPM)
3904 /* XPM support functions for NS where libxpm is not available.
3905 Only XPM version 3 (without any extensions) is supported. */
3907 static void xpm_put_color_table_v (Lisp_Object, const char *,
3908 int, Lisp_Object);
3909 static Lisp_Object xpm_get_color_table_v (Lisp_Object, const char *, int);
3910 static void xpm_put_color_table_h (Lisp_Object, const char *,
3911 int, Lisp_Object);
3912 static Lisp_Object xpm_get_color_table_h (Lisp_Object, const char *, int);
3914 /* Tokens returned from xpm_scan. */
3916 enum xpm_token
3918 XPM_TK_IDENT = 256,
3919 XPM_TK_STRING,
3920 XPM_TK_EOF
3923 /* Scan an XPM data and return a character (< 256) or a token defined
3924 by enum xpm_token above. *S and END are the start (inclusive) and
3925 the end (exclusive) addresses of the data, respectively. Advance
3926 *S while scanning. If token is either XPM_TK_IDENT or
3927 XPM_TK_STRING, *BEG and *LEN are set to the start address and the
3928 length of the corresponding token, respectively. */
3930 static int
3931 xpm_scan (const char **s, const char *end, const char **beg, ptrdiff_t *len)
3933 unsigned char c;
3935 while (*s < end)
3937 /* Skip white-space. */
3938 while (*s < end && (c = *(*s)++, c_isspace (c)))
3941 /* gnus-pointer.xpm uses '-' in its identifier.
3942 sb-dir-plus.xpm uses '+' in its identifier. */
3943 if (c_isalpha (c) || c == '_' || c == '-' || c == '+')
3945 *beg = *s - 1;
3946 while (*s < end
3947 && (c = **s, c_isalnum (c)
3948 || c == '_' || c == '-' || c == '+'))
3949 ++*s;
3950 *len = *s - *beg;
3951 return XPM_TK_IDENT;
3953 else if (c == '"')
3955 *beg = *s;
3956 while (*s < end && **s != '"')
3957 ++*s;
3958 *len = *s - *beg;
3959 if (*s < end)
3960 ++*s;
3961 return XPM_TK_STRING;
3963 else if (c == '/')
3965 if (*s < end && **s == '*')
3967 /* C-style comment. */
3968 ++*s;
3971 while (*s < end && *(*s)++ != '*')
3974 while (*s < end && **s != '/');
3975 if (*s < end)
3976 ++*s;
3978 else
3979 return c;
3981 else
3982 return c;
3985 return XPM_TK_EOF;
3988 /* Functions for color table lookup in XPM data. A key is a string
3989 specifying the color of each pixel in XPM data. A value is either
3990 an integer that specifies a pixel color, Qt that specifies
3991 transparency, or Qnil for the unspecified color. If the length of
3992 the key string is one, a vector is used as a table. Otherwise, a
3993 hash table is used. */
3995 static Lisp_Object
3996 xpm_make_color_table_v (void (**put_func) (Lisp_Object, const char *, int,
3997 Lisp_Object),
3998 Lisp_Object (**get_func) (Lisp_Object, const char *,
3999 int))
4001 *put_func = xpm_put_color_table_v;
4002 *get_func = xpm_get_color_table_v;
4003 return Fmake_vector (make_number (256), Qnil);
4006 static void
4007 xpm_put_color_table_v (Lisp_Object color_table,
4008 const char *chars_start,
4009 int chars_len,
4010 Lisp_Object color)
4012 unsigned char uc = *chars_start;
4013 ASET (color_table, uc, color);
4016 static Lisp_Object
4017 xpm_get_color_table_v (Lisp_Object color_table,
4018 const char *chars_start,
4019 int chars_len)
4021 unsigned char uc = *chars_start;
4022 return AREF (color_table, uc);
4025 static Lisp_Object
4026 xpm_make_color_table_h (void (**put_func) (Lisp_Object, const char *, int,
4027 Lisp_Object),
4028 Lisp_Object (**get_func) (Lisp_Object, const char *,
4029 int))
4031 *put_func = xpm_put_color_table_h;
4032 *get_func = xpm_get_color_table_h;
4033 return make_hash_table (hashtest_equal, DEFAULT_HASH_SIZE,
4034 DEFAULT_REHASH_SIZE, DEFAULT_REHASH_THRESHOLD,
4035 Qnil, false);
4038 static void
4039 xpm_put_color_table_h (Lisp_Object color_table,
4040 const char *chars_start,
4041 int chars_len,
4042 Lisp_Object color)
4044 struct Lisp_Hash_Table *table = XHASH_TABLE (color_table);
4045 EMACS_UINT hash_code;
4046 Lisp_Object chars = make_unibyte_string (chars_start, chars_len);
4048 hash_lookup (table, chars, &hash_code);
4049 hash_put (table, chars, color, hash_code);
4052 static Lisp_Object
4053 xpm_get_color_table_h (Lisp_Object color_table,
4054 const char *chars_start,
4055 int chars_len)
4057 struct Lisp_Hash_Table *table = XHASH_TABLE (color_table);
4058 ptrdiff_t i =
4059 hash_lookup (table, make_unibyte_string (chars_start, chars_len), NULL);
4061 return i >= 0 ? HASH_VALUE (table, i) : Qnil;
4064 enum xpm_color_key {
4065 XPM_COLOR_KEY_S,
4066 XPM_COLOR_KEY_M,
4067 XPM_COLOR_KEY_G4,
4068 XPM_COLOR_KEY_G,
4069 XPM_COLOR_KEY_C
4072 static const char xpm_color_key_strings[][4] = {"s", "m", "g4", "g", "c"};
4074 static int
4075 xpm_str_to_color_key (const char *s)
4077 int i;
4079 for (i = 0; i < ARRAYELTS (xpm_color_key_strings); i++)
4080 if (strcmp (xpm_color_key_strings[i], s) == 0)
4081 return i;
4082 return -1;
4085 static bool
4086 xpm_load_image (struct frame *f,
4087 struct image *img,
4088 const char *contents,
4089 const char *end)
4091 const char *s = contents, *beg, *str;
4092 char buffer[BUFSIZ];
4093 int width, height, x, y;
4094 int num_colors, chars_per_pixel;
4095 ptrdiff_t len;
4096 int LA1;
4097 void (*put_color_table) (Lisp_Object, const char *, int, Lisp_Object);
4098 Lisp_Object (*get_color_table) (Lisp_Object, const char *, int);
4099 Lisp_Object frame, color_symbols, color_table;
4100 int best_key;
4101 #ifndef HAVE_NS
4102 bool have_mask = false;
4103 #endif
4104 XImagePtr ximg = NULL, mask_img = NULL;
4106 #define match() \
4107 LA1 = xpm_scan (&s, end, &beg, &len)
4109 #define expect(TOKEN) \
4110 do \
4112 if (LA1 != (TOKEN)) \
4113 goto failure; \
4114 match (); \
4116 while (0)
4118 #define expect_ident(IDENT) \
4119 if (LA1 == XPM_TK_IDENT \
4120 && strlen ((IDENT)) == len && memcmp ((IDENT), beg, len) == 0) \
4121 match (); \
4122 else \
4123 goto failure
4125 if (!(end - s >= 9 && memcmp (s, "/* XPM */", 9) == 0))
4126 goto failure;
4127 s += 9;
4128 match ();
4129 expect_ident ("static");
4130 expect_ident ("char");
4131 expect ('*');
4132 expect (XPM_TK_IDENT);
4133 expect ('[');
4134 expect (']');
4135 expect ('=');
4136 expect ('{');
4137 expect (XPM_TK_STRING);
4138 if (len >= BUFSIZ)
4139 goto failure;
4140 memcpy (buffer, beg, len);
4141 buffer[len] = '\0';
4142 if (sscanf (buffer, "%d %d %d %d", &width, &height,
4143 &num_colors, &chars_per_pixel) != 4
4144 || width <= 0 || height <= 0
4145 || num_colors <= 0 || chars_per_pixel <= 0)
4146 goto failure;
4148 if (!check_image_size (f, width, height))
4150 image_size_error ();
4151 goto failure;
4154 if (!image_create_x_image_and_pixmap (f, img, width, height, 0, &ximg, 0)
4155 #ifndef HAVE_NS
4156 || !image_create_x_image_and_pixmap (f, img, width, height, 1,
4157 &mask_img, 1)
4158 #endif
4161 image_error ("Image too large");
4162 goto failure;
4165 expect (',');
4167 XSETFRAME (frame, f);
4168 if (!NILP (Fxw_display_color_p (frame)))
4169 best_key = XPM_COLOR_KEY_C;
4170 else if (!NILP (Fx_display_grayscale_p (frame)))
4171 best_key = (XFASTINT (Fx_display_planes (frame)) > 2
4172 ? XPM_COLOR_KEY_G : XPM_COLOR_KEY_G4);
4173 else
4174 best_key = XPM_COLOR_KEY_M;
4176 color_symbols = image_spec_value (img->spec, QCcolor_symbols, NULL);
4177 if (chars_per_pixel == 1)
4178 color_table = xpm_make_color_table_v (&put_color_table,
4179 &get_color_table);
4180 else
4181 color_table = xpm_make_color_table_h (&put_color_table,
4182 &get_color_table);
4184 while (num_colors-- > 0)
4186 char *color, *max_color;
4187 int key, next_key, max_key = 0;
4188 Lisp_Object symbol_color = Qnil, color_val;
4189 XColor cdef;
4191 expect (XPM_TK_STRING);
4192 if (len <= chars_per_pixel || len >= BUFSIZ + chars_per_pixel)
4193 goto failure;
4194 memcpy (buffer, beg + chars_per_pixel, len - chars_per_pixel);
4195 buffer[len - chars_per_pixel] = '\0';
4197 str = strtok (buffer, " \t");
4198 if (str == NULL)
4199 goto failure;
4200 key = xpm_str_to_color_key (str);
4201 if (key < 0)
4202 goto failure;
4205 color = strtok (NULL, " \t");
4206 if (color == NULL)
4207 goto failure;
4209 while ((str = strtok (NULL, " \t")) != NULL)
4211 next_key = xpm_str_to_color_key (str);
4212 if (next_key >= 0)
4213 break;
4214 color[strlen (color)] = ' ';
4217 if (key == XPM_COLOR_KEY_S)
4219 if (NILP (symbol_color))
4220 symbol_color = build_string (color);
4222 else if (max_key < key && key <= best_key)
4224 max_key = key;
4225 max_color = color;
4227 key = next_key;
4229 while (str);
4231 color_val = Qnil;
4232 if (!NILP (color_symbols) && !NILP (symbol_color))
4234 Lisp_Object specified_color = Fassoc (symbol_color, color_symbols, Qnil);
4236 if (CONSP (specified_color) && STRINGP (XCDR (specified_color)))
4238 if (xstrcasecmp (SSDATA (XCDR (specified_color)), "None") == 0)
4239 color_val = Qt;
4240 else if (x_defined_color (f, SSDATA (XCDR (specified_color)),
4241 &cdef, 0))
4242 color_val = make_number (cdef.pixel);
4245 if (NILP (color_val) && max_key > 0)
4247 if (xstrcasecmp (max_color, "None") == 0)
4248 color_val = Qt;
4249 else if (x_defined_color (f, max_color, &cdef, 0))
4250 color_val = make_number (cdef.pixel);
4252 if (!NILP (color_val))
4253 (*put_color_table) (color_table, beg, chars_per_pixel, color_val);
4255 expect (',');
4258 for (y = 0; y < height; y++)
4260 expect (XPM_TK_STRING);
4261 str = beg;
4262 if (len < width * chars_per_pixel)
4263 goto failure;
4264 for (x = 0; x < width; x++, str += chars_per_pixel)
4266 Lisp_Object color_val =
4267 (*get_color_table) (color_table, str, chars_per_pixel);
4269 XPutPixel (ximg, x, y,
4270 (INTEGERP (color_val) ? XINT (color_val)
4271 : FRAME_FOREGROUND_PIXEL (f)));
4272 #ifndef HAVE_NS
4273 XPutPixel (mask_img, x, y,
4274 (!EQ (color_val, Qt) ? PIX_MASK_DRAW
4275 : (have_mask = true, PIX_MASK_RETAIN)));
4276 #else
4277 if (EQ (color_val, Qt))
4278 ns_set_alpha (ximg, x, y, 0);
4279 #endif
4281 if (y + 1 < height)
4282 expect (',');
4285 img->width = width;
4286 img->height = height;
4288 /* Maybe fill in the background field while we have ximg handy. */
4289 if (NILP (image_spec_value (img->spec, QCbackground, NULL)))
4290 IMAGE_BACKGROUND (img, f, ximg);
4292 image_put_x_image (f, img, ximg, 0);
4293 #ifndef HAVE_NS
4294 if (have_mask)
4296 /* Fill in the background_transparent field while we have the
4297 mask handy. */
4298 image_background_transparent (img, f, mask_img);
4300 image_put_x_image (f, img, mask_img, 1);
4302 else
4304 x_destroy_x_image (mask_img);
4305 x_clear_image_1 (f, img, CLEAR_IMAGE_MASK);
4307 #endif
4308 return 1;
4310 failure:
4311 image_error ("Invalid XPM file (%s)", img->spec);
4312 x_destroy_x_image (ximg);
4313 x_destroy_x_image (mask_img);
4314 x_clear_image (f, img);
4315 return 0;
4317 #undef match
4318 #undef expect
4319 #undef expect_ident
4322 static bool
4323 xpm_load (struct frame *f,
4324 struct image *img)
4326 bool success_p = 0;
4327 Lisp_Object file_name;
4329 /* If IMG->spec specifies a file name, create a non-file spec from it. */
4330 file_name = image_spec_value (img->spec, QCfile, NULL);
4331 if (STRINGP (file_name))
4333 int fd;
4334 Lisp_Object file = x_find_image_fd (file_name, &fd);
4335 if (!STRINGP (file))
4337 image_error ("Cannot find image file `%s'", file_name);
4338 return 0;
4341 ptrdiff_t size;
4342 char *contents = slurp_file (fd, &size);
4343 if (contents == NULL)
4345 image_error ("Error loading XPM image `%s'", file);
4346 return 0;
4349 success_p = xpm_load_image (f, img, contents, contents + size);
4350 xfree (contents);
4352 else
4354 Lisp_Object data;
4356 data = image_spec_value (img->spec, QCdata, NULL);
4357 if (!STRINGP (data))
4359 image_error ("Invalid image data `%s'", data);
4360 return 0;
4362 success_p = xpm_load_image (f, img, SSDATA (data),
4363 SSDATA (data) + SBYTES (data));
4366 return success_p;
4369 #endif /* HAVE_NS && !HAVE_XPM */
4373 /***********************************************************************
4374 Color table
4375 ***********************************************************************/
4377 #ifdef COLOR_TABLE_SUPPORT
4379 /* An entry in the color table mapping an RGB color to a pixel color. */
4381 struct ct_color
4383 int r, g, b;
4384 unsigned long pixel;
4386 /* Next in color table collision list. */
4387 struct ct_color *next;
4390 /* The bucket vector size to use. Must be prime. */
4392 #define CT_SIZE 101
4394 /* Value is a hash of the RGB color given by R, G, and B. */
4396 static unsigned
4397 ct_hash_rgb (unsigned r, unsigned g, unsigned b)
4399 return (r << 16) ^ (g << 8) ^ b;
4402 /* The color hash table. */
4404 static struct ct_color **ct_table;
4406 /* Number of entries in the color table. */
4408 static int ct_colors_allocated;
4409 enum
4411 ct_colors_allocated_max =
4412 min (INT_MAX,
4413 min (PTRDIFF_MAX, SIZE_MAX) / sizeof (unsigned long))
4416 /* Initialize the color table. */
4418 static void
4419 init_color_table (void)
4421 int size = CT_SIZE * sizeof (*ct_table);
4422 ct_table = xzalloc (size);
4423 ct_colors_allocated = 0;
4427 /* Free memory associated with the color table. */
4429 static void
4430 free_color_table (void)
4432 int i;
4433 struct ct_color *p, *next;
4435 for (i = 0; i < CT_SIZE; ++i)
4436 for (p = ct_table[i]; p; p = next)
4438 next = p->next;
4439 xfree (p);
4442 xfree (ct_table);
4443 ct_table = NULL;
4447 /* Value is a pixel color for RGB color R, G, B on frame F. If an
4448 entry for that color already is in the color table, return the
4449 pixel color of that entry. Otherwise, allocate a new color for R,
4450 G, B, and make an entry in the color table. */
4452 static unsigned long
4453 lookup_rgb_color (struct frame *f, int r, int g, int b)
4455 unsigned hash = ct_hash_rgb (r, g, b);
4456 int i = hash % CT_SIZE;
4457 struct ct_color *p;
4458 Display_Info *dpyinfo;
4460 /* Handle TrueColor visuals specially, which improves performance by
4461 two orders of magnitude. Freeing colors on TrueColor visuals is
4462 a nop, and pixel colors specify RGB values directly. See also
4463 the Xlib spec, chapter 3.1. */
4464 dpyinfo = FRAME_DISPLAY_INFO (f);
4465 if (dpyinfo->red_bits > 0)
4467 /* Apply gamma-correction like normal color allocation does. */
4468 if (f->gamma)
4470 XColor color;
4471 color.red = r, color.green = g, color.blue = b;
4472 gamma_correct (f, &color);
4473 r = color.red, g = color.green, b = color.blue;
4476 return x_make_truecolor_pixel (dpyinfo, r, g, b);
4479 for (p = ct_table[i]; p; p = p->next)
4480 if (p->r == r && p->g == g && p->b == b)
4481 break;
4483 if (p == NULL)
4486 #ifdef HAVE_X_WINDOWS
4487 XColor color;
4488 Colormap cmap;
4489 bool rc;
4490 #else
4491 COLORREF color;
4492 #endif
4494 if (ct_colors_allocated_max <= ct_colors_allocated)
4495 return FRAME_FOREGROUND_PIXEL (f);
4497 #ifdef HAVE_X_WINDOWS
4498 color.red = r;
4499 color.green = g;
4500 color.blue = b;
4502 cmap = FRAME_X_COLORMAP (f);
4503 rc = x_alloc_nearest_color (f, cmap, &color);
4504 if (rc)
4506 ++ct_colors_allocated;
4507 p = xmalloc (sizeof *p);
4508 p->r = r;
4509 p->g = g;
4510 p->b = b;
4511 p->pixel = color.pixel;
4512 p->next = ct_table[i];
4513 ct_table[i] = p;
4515 else
4516 return FRAME_FOREGROUND_PIXEL (f);
4518 #else
4519 #ifdef HAVE_NTGUI
4520 color = PALETTERGB (r, g, b);
4521 #else
4522 color = RGB_TO_ULONG (r, g, b);
4523 #endif /* HAVE_NTGUI */
4524 ++ct_colors_allocated;
4525 p = xmalloc (sizeof *p);
4526 p->r = r;
4527 p->g = g;
4528 p->b = b;
4529 p->pixel = color;
4530 p->next = ct_table[i];
4531 ct_table[i] = p;
4532 #endif /* HAVE_X_WINDOWS */
4536 return p->pixel;
4540 /* Look up pixel color PIXEL which is used on frame F in the color
4541 table. If not already present, allocate it. Value is PIXEL. */
4543 static unsigned long
4544 lookup_pixel_color (struct frame *f, unsigned long pixel)
4546 int i = pixel % CT_SIZE;
4547 struct ct_color *p;
4549 for (p = ct_table[i]; p; p = p->next)
4550 if (p->pixel == pixel)
4551 break;
4553 if (p == NULL)
4555 XColor color;
4556 Colormap cmap;
4557 bool rc;
4559 if (ct_colors_allocated >= ct_colors_allocated_max)
4560 return FRAME_FOREGROUND_PIXEL (f);
4562 #ifdef HAVE_X_WINDOWS
4563 cmap = FRAME_X_COLORMAP (f);
4564 color.pixel = pixel;
4565 x_query_color (f, &color);
4566 rc = x_alloc_nearest_color (f, cmap, &color);
4567 #else
4568 block_input ();
4569 cmap = DefaultColormapOfScreen (FRAME_X_SCREEN (f));
4570 color.pixel = pixel;
4571 XQueryColor (NULL, cmap, &color);
4572 rc = x_alloc_nearest_color (f, cmap, &color);
4573 unblock_input ();
4574 #endif /* HAVE_X_WINDOWS */
4576 if (rc)
4578 ++ct_colors_allocated;
4580 p = xmalloc (sizeof *p);
4581 p->r = color.red;
4582 p->g = color.green;
4583 p->b = color.blue;
4584 p->pixel = pixel;
4585 p->next = ct_table[i];
4586 ct_table[i] = p;
4588 else
4589 return FRAME_FOREGROUND_PIXEL (f);
4591 return p->pixel;
4595 /* Value is a vector of all pixel colors contained in the color table,
4596 allocated via xmalloc. Set *N to the number of colors. */
4598 static unsigned long *
4599 colors_in_color_table (int *n)
4601 int i, j;
4602 struct ct_color *p;
4603 unsigned long *colors;
4605 if (ct_colors_allocated == 0)
4607 *n = 0;
4608 colors = NULL;
4610 else
4612 colors = xmalloc (ct_colors_allocated * sizeof *colors);
4613 *n = ct_colors_allocated;
4615 for (i = j = 0; i < CT_SIZE; ++i)
4616 for (p = ct_table[i]; p; p = p->next)
4617 colors[j++] = p->pixel;
4620 return colors;
4623 #else /* COLOR_TABLE_SUPPORT */
4625 static unsigned long
4626 lookup_rgb_color (struct frame *f, int r, int g, int b)
4628 #ifdef HAVE_NTGUI
4629 return PALETTERGB (r >> 8, g >> 8, b >> 8);
4630 #elif defined HAVE_NS
4631 return RGB_TO_ULONG (r >> 8, g >> 8, b >> 8);
4632 #else
4633 xsignal1 (Qfile_error,
4634 build_string ("This Emacs mishandles this image file type"));
4635 #endif
4638 static void
4639 init_color_table (void)
4642 #endif /* COLOR_TABLE_SUPPORT */
4645 /***********************************************************************
4646 Algorithms
4647 ***********************************************************************/
4649 /* Edge detection matrices for different edge-detection
4650 strategies. */
4652 static int emboss_matrix[9] = {
4653 /* x - 1 x x + 1 */
4654 2, -1, 0, /* y - 1 */
4655 -1, 0, 1, /* y */
4656 0, 1, -2 /* y + 1 */
4659 static int laplace_matrix[9] = {
4660 /* x - 1 x x + 1 */
4661 1, 0, 0, /* y - 1 */
4662 0, 0, 0, /* y */
4663 0, 0, -1 /* y + 1 */
4666 /* Value is the intensity of the color whose red/green/blue values
4667 are R, G, and B. */
4669 #define COLOR_INTENSITY(R, G, B) ((2 * (R) + 3 * (G) + (B)) / 6)
4672 /* On frame F, return an array of XColor structures describing image
4673 IMG->pixmap. Each XColor structure has its pixel color set. RGB_P
4674 means also fill the red/green/blue members of the XColor
4675 structures. Value is a pointer to the array of XColors structures,
4676 allocated with xmalloc; it must be freed by the caller. */
4678 static XColor *
4679 x_to_xcolors (struct frame *f, struct image *img, bool rgb_p)
4681 int x, y;
4682 XColor *colors, *p;
4683 XImagePtr_or_DC ximg;
4684 ptrdiff_t nbytes;
4685 #ifdef HAVE_NTGUI
4686 HGDIOBJ prev;
4687 #endif /* HAVE_NTGUI */
4689 if (INT_MULTIPLY_WRAPV (sizeof *colors, img->width, &nbytes)
4690 || INT_MULTIPLY_WRAPV (img->height, nbytes, &nbytes)
4691 || SIZE_MAX < nbytes)
4692 memory_full (SIZE_MAX);
4693 colors = xmalloc (nbytes);
4695 /* Get the X image or create a memory device context for IMG. */
4696 ximg = image_get_x_image_or_dc (f, img, 0, &prev);
4698 /* Fill the `pixel' members of the XColor array. I wished there
4699 were an easy and portable way to circumvent XGetPixel. */
4700 p = colors;
4701 for (y = 0; y < img->height; ++y)
4703 #if defined (HAVE_X_WINDOWS) || defined (HAVE_NTGUI)
4704 XColor *row = p;
4705 for (x = 0; x < img->width; ++x, ++p)
4706 p->pixel = GET_PIXEL (ximg, x, y);
4707 if (rgb_p)
4708 x_query_colors (f, row, img->width);
4710 #else
4712 for (x = 0; x < img->width; ++x, ++p)
4714 /* W32_TODO: palette support needed here? */
4715 p->pixel = GET_PIXEL (ximg, x, y);
4716 if (rgb_p)
4718 p->red = RED16_FROM_ULONG (p->pixel);
4719 p->green = GREEN16_FROM_ULONG (p->pixel);
4720 p->blue = BLUE16_FROM_ULONG (p->pixel);
4723 #endif /* HAVE_X_WINDOWS */
4726 image_unget_x_image_or_dc (img, 0, ximg, prev);
4728 return colors;
4731 #ifdef HAVE_NTGUI
4733 /* Put a pixel of COLOR at position X, Y in XIMG. XIMG must have been
4734 created with CreateDIBSection, with the pointer to the bit values
4735 stored in ximg->data. */
4737 static void
4738 XPutPixel (XImagePtr ximg, int x, int y, COLORREF color)
4740 int width = ximg->info.bmiHeader.biWidth;
4741 unsigned char * pixel;
4743 /* True color images. */
4744 if (ximg->info.bmiHeader.biBitCount == 24)
4746 int rowbytes = width * 3;
4747 /* Ensure scanlines are aligned on 4 byte boundaries. */
4748 if (rowbytes % 4)
4749 rowbytes += 4 - (rowbytes % 4);
4751 pixel = ximg->data + y * rowbytes + x * 3;
4752 /* Windows bitmaps are in BGR order. */
4753 *pixel = GetBValue (color);
4754 *(pixel + 1) = GetGValue (color);
4755 *(pixel + 2) = GetRValue (color);
4757 /* Monochrome images. */
4758 else if (ximg->info.bmiHeader.biBitCount == 1)
4760 int rowbytes = width / 8;
4761 /* Ensure scanlines are aligned on 4 byte boundaries. */
4762 if (rowbytes % 4)
4763 rowbytes += 4 - (rowbytes % 4);
4764 pixel = ximg->data + y * rowbytes + x / 8;
4765 /* Filter out palette info. */
4766 if (color & 0x00ffffff)
4767 *pixel = *pixel | (1 << x % 8);
4768 else
4769 *pixel = *pixel & ~(1 << x % 8);
4771 else
4772 image_error ("XPutPixel: palette image not supported");
4775 #endif /* HAVE_NTGUI */
4777 /* Create IMG->pixmap from an array COLORS of XColor structures, whose
4778 RGB members are set. F is the frame on which this all happens.
4779 COLORS will be freed; an existing IMG->pixmap will be freed, too. */
4781 static void
4782 x_from_xcolors (struct frame *f, struct image *img, XColor *colors)
4784 int x, y;
4785 XImagePtr oimg = NULL;
4786 XColor *p;
4788 init_color_table ();
4790 x_clear_image_1 (f, img, CLEAR_IMAGE_PIXMAP | CLEAR_IMAGE_COLORS);
4791 image_create_x_image_and_pixmap (f, img, img->width, img->height, 0,
4792 &oimg, 0);
4793 p = colors;
4794 for (y = 0; y < img->height; ++y)
4795 for (x = 0; x < img->width; ++x, ++p)
4797 unsigned long pixel;
4798 pixel = lookup_rgb_color (f, p->red, p->green, p->blue);
4799 XPutPixel (oimg, x, y, pixel);
4802 xfree (colors);
4804 image_put_x_image (f, img, oimg, 0);
4805 #ifdef COLOR_TABLE_SUPPORT
4806 img->colors = colors_in_color_table (&img->ncolors);
4807 free_color_table ();
4808 #endif /* COLOR_TABLE_SUPPORT */
4812 /* On frame F, perform edge-detection on image IMG.
4814 MATRIX is a nine-element array specifying the transformation
4815 matrix. See emboss_matrix for an example.
4817 COLOR_ADJUST is a color adjustment added to each pixel of the
4818 outgoing image. */
4820 static void
4821 x_detect_edges (struct frame *f, struct image *img, int *matrix, int color_adjust)
4823 XColor *colors = x_to_xcolors (f, img, 1);
4824 XColor *new, *p;
4825 int x, y, i, sum;
4826 ptrdiff_t nbytes;
4828 for (i = sum = 0; i < 9; ++i)
4829 sum += eabs (matrix[i]);
4831 #define COLOR(A, X, Y) ((A) + (Y) * img->width + (X))
4833 if (INT_MULTIPLY_WRAPV (sizeof *new, img->width, &nbytes)
4834 || INT_MULTIPLY_WRAPV (img->height, nbytes, &nbytes))
4835 memory_full (SIZE_MAX);
4836 new = xmalloc (nbytes);
4838 for (y = 0; y < img->height; ++y)
4840 p = COLOR (new, 0, y);
4841 p->red = p->green = p->blue = 0xffff/2;
4842 p = COLOR (new, img->width - 1, y);
4843 p->red = p->green = p->blue = 0xffff/2;
4846 for (x = 1; x < img->width - 1; ++x)
4848 p = COLOR (new, x, 0);
4849 p->red = p->green = p->blue = 0xffff/2;
4850 p = COLOR (new, x, img->height - 1);
4851 p->red = p->green = p->blue = 0xffff/2;
4854 for (y = 1; y < img->height - 1; ++y)
4856 p = COLOR (new, 1, y);
4858 for (x = 1; x < img->width - 1; ++x, ++p)
4860 int r, g, b, yy, xx;
4862 r = g = b = i = 0;
4863 for (yy = y - 1; yy < y + 2; ++yy)
4864 for (xx = x - 1; xx < x + 2; ++xx, ++i)
4865 if (matrix[i])
4867 XColor *t = COLOR (colors, xx, yy);
4868 r += matrix[i] * t->red;
4869 g += matrix[i] * t->green;
4870 b += matrix[i] * t->blue;
4873 r = (r / sum + color_adjust) & 0xffff;
4874 g = (g / sum + color_adjust) & 0xffff;
4875 b = (b / sum + color_adjust) & 0xffff;
4876 p->red = p->green = p->blue = COLOR_INTENSITY (r, g, b);
4880 xfree (colors);
4881 x_from_xcolors (f, img, new);
4883 #undef COLOR
4887 /* Perform the pre-defined `emboss' edge-detection on image IMG
4888 on frame F. */
4890 static void
4891 x_emboss (struct frame *f, struct image *img)
4893 x_detect_edges (f, img, emboss_matrix, 0xffff / 2);
4897 /* Transform image IMG which is used on frame F with a Laplace
4898 edge-detection algorithm. The result is an image that can be used
4899 to draw disabled buttons, for example. */
4901 static void
4902 x_laplace (struct frame *f, struct image *img)
4904 x_detect_edges (f, img, laplace_matrix, 45000);
4908 /* Perform edge-detection on image IMG on frame F, with specified
4909 transformation matrix MATRIX and color-adjustment COLOR_ADJUST.
4911 MATRIX must be either
4913 - a list of at least 9 numbers in row-major form
4914 - a vector of at least 9 numbers
4916 COLOR_ADJUST nil means use a default; otherwise it must be a
4917 number. */
4919 static void
4920 x_edge_detection (struct frame *f, struct image *img, Lisp_Object matrix,
4921 Lisp_Object color_adjust)
4923 int i = 0;
4924 int trans[9];
4926 if (CONSP (matrix))
4928 for (i = 0;
4929 i < 9 && CONSP (matrix) && NUMBERP (XCAR (matrix));
4930 ++i, matrix = XCDR (matrix))
4931 trans[i] = XFLOATINT (XCAR (matrix));
4933 else if (VECTORP (matrix) && ASIZE (matrix) >= 9)
4935 for (i = 0; i < 9 && NUMBERP (AREF (matrix, i)); ++i)
4936 trans[i] = XFLOATINT (AREF (matrix, i));
4939 if (NILP (color_adjust))
4940 color_adjust = make_number (0xffff / 2);
4942 if (i == 9 && NUMBERP (color_adjust))
4943 x_detect_edges (f, img, trans, XFLOATINT (color_adjust));
4947 /* Transform image IMG on frame F so that it looks disabled. */
4949 static void
4950 x_disable_image (struct frame *f, struct image *img)
4952 Display_Info *dpyinfo = FRAME_DISPLAY_INFO (f);
4953 #ifdef HAVE_NTGUI
4954 int n_planes = dpyinfo->n_planes * dpyinfo->n_cbits;
4955 #else
4956 int n_planes = dpyinfo->n_planes;
4957 #endif /* HAVE_NTGUI */
4959 if (n_planes >= 2)
4961 /* Color (or grayscale). Convert to gray, and equalize. Just
4962 drawing such images with a stipple can look very odd, so
4963 we're using this method instead. */
4964 XColor *colors = x_to_xcolors (f, img, 1);
4965 XColor *p, *end;
4966 const int h = 15000;
4967 const int l = 30000;
4969 for (p = colors, end = colors + img->width * img->height;
4970 p < end;
4971 ++p)
4973 int i = COLOR_INTENSITY (p->red, p->green, p->blue);
4974 int i2 = (0xffff - h - l) * i / 0xffff + l;
4975 p->red = p->green = p->blue = i2;
4978 x_from_xcolors (f, img, colors);
4981 /* Draw a cross over the disabled image, if we must or if we
4982 should. */
4983 if (n_planes < 2 || cross_disabled_images)
4985 #ifndef HAVE_NTGUI
4986 #ifndef HAVE_NS /* TODO: NS support, however this not needed for toolbars */
4988 #define MaskForeground(f) WHITE_PIX_DEFAULT (f)
4990 Display *dpy = FRAME_X_DISPLAY (f);
4991 GC gc;
4993 image_sync_to_pixmaps (f, img);
4994 gc = XCreateGC (dpy, img->pixmap, 0, NULL);
4995 XSetForeground (dpy, gc, BLACK_PIX_DEFAULT (f));
4996 XDrawLine (dpy, img->pixmap, gc, 0, 0,
4997 img->width - 1, img->height - 1);
4998 XDrawLine (dpy, img->pixmap, gc, 0, img->height - 1,
4999 img->width - 1, 0);
5000 XFreeGC (dpy, gc);
5002 if (img->mask)
5004 gc = XCreateGC (dpy, img->mask, 0, NULL);
5005 XSetForeground (dpy, gc, MaskForeground (f));
5006 XDrawLine (dpy, img->mask, gc, 0, 0,
5007 img->width - 1, img->height - 1);
5008 XDrawLine (dpy, img->mask, gc, 0, img->height - 1,
5009 img->width - 1, 0);
5010 XFreeGC (dpy, gc);
5012 #endif /* !HAVE_NS */
5013 #else
5014 HDC hdc, bmpdc;
5015 HGDIOBJ prev;
5017 hdc = get_frame_dc (f);
5018 bmpdc = CreateCompatibleDC (hdc);
5019 release_frame_dc (f, hdc);
5021 prev = SelectObject (bmpdc, img->pixmap);
5023 SetTextColor (bmpdc, BLACK_PIX_DEFAULT (f));
5024 MoveToEx (bmpdc, 0, 0, NULL);
5025 LineTo (bmpdc, img->width - 1, img->height - 1);
5026 MoveToEx (bmpdc, 0, img->height - 1, NULL);
5027 LineTo (bmpdc, img->width - 1, 0);
5029 if (img->mask)
5031 SelectObject (bmpdc, img->mask);
5032 SetTextColor (bmpdc, WHITE_PIX_DEFAULT (f));
5033 MoveToEx (bmpdc, 0, 0, NULL);
5034 LineTo (bmpdc, img->width - 1, img->height - 1);
5035 MoveToEx (bmpdc, 0, img->height - 1, NULL);
5036 LineTo (bmpdc, img->width - 1, 0);
5038 SelectObject (bmpdc, prev);
5039 DeleteDC (bmpdc);
5040 #endif /* HAVE_NTGUI */
5045 /* Build a mask for image IMG which is used on frame F. FILE is the
5046 name of an image file, for error messages. HOW determines how to
5047 determine the background color of IMG. If it is a list '(R G B)',
5048 with R, G, and B being integers >= 0, take that as the color of the
5049 background. Otherwise, determine the background color of IMG
5050 heuristically. */
5052 static void
5053 x_build_heuristic_mask (struct frame *f, struct image *img, Lisp_Object how)
5055 XImagePtr_or_DC ximg;
5056 #ifdef HAVE_NTGUI
5057 HGDIOBJ prev;
5058 char *mask_img;
5059 int row_width;
5060 #elif !defined HAVE_NS
5061 XImagePtr mask_img;
5062 #endif
5063 int x, y;
5064 bool use_img_background;
5065 unsigned long bg = 0;
5067 if (img->mask)
5068 x_clear_image_1 (f, img, CLEAR_IMAGE_MASK);
5070 #ifndef HAVE_NTGUI
5071 #ifndef HAVE_NS
5072 /* Create an image and pixmap serving as mask. */
5073 if (! image_create_x_image_and_pixmap (f, img, img->width, img->height, 1,
5074 &mask_img, 1))
5075 return;
5076 #endif /* !HAVE_NS */
5077 #else
5078 /* Create the bit array serving as mask. */
5079 row_width = (img->width + 7) / 8;
5080 mask_img = xzalloc (row_width * img->height);
5081 #endif /* HAVE_NTGUI */
5083 /* Get the X image or create a memory device context for IMG. */
5084 ximg = image_get_x_image_or_dc (f, img, 0, &prev);
5086 /* Determine the background color of ximg. If HOW is `(R G B)'
5087 take that as color. Otherwise, use the image's background color. */
5088 use_img_background = 1;
5090 if (CONSP (how))
5092 int rgb[3], i;
5094 for (i = 0; i < 3 && CONSP (how) && NATNUMP (XCAR (how)); ++i)
5096 rgb[i] = XFASTINT (XCAR (how)) & 0xffff;
5097 how = XCDR (how);
5100 if (i == 3 && NILP (how))
5102 char color_name[30];
5103 sprintf (color_name, "#%04x%04x%04x",
5104 rgb[0] + 0u, rgb[1] + 0u, rgb[2] + 0u);
5105 bg = (
5106 #ifdef HAVE_NTGUI
5107 0x00ffffff & /* Filter out palette info. */
5108 #endif /* HAVE_NTGUI */
5109 x_alloc_image_color (f, img, build_string (color_name), 0));
5110 use_img_background = 0;
5114 if (use_img_background)
5115 bg = four_corners_best (ximg, img->corners, img->width, img->height);
5117 /* Set all bits in mask_img to 1 whose color in ximg is different
5118 from the background color bg. */
5119 #ifndef HAVE_NTGUI
5120 for (y = 0; y < img->height; ++y)
5121 for (x = 0; x < img->width; ++x)
5122 #ifndef HAVE_NS
5123 XPutPixel (mask_img, x, y, (XGetPixel (ximg, x, y) != bg
5124 ? PIX_MASK_DRAW : PIX_MASK_RETAIN));
5125 #else
5126 if (XGetPixel (ximg, x, y) == bg)
5127 ns_set_alpha (ximg, x, y, 0);
5128 #endif /* HAVE_NS */
5129 #ifndef HAVE_NS
5130 /* Fill in the background_transparent field while we have the mask handy. */
5131 image_background_transparent (img, f, mask_img);
5133 /* Put mask_img into the image. */
5134 image_put_x_image (f, img, mask_img, 1);
5135 #endif /* !HAVE_NS */
5136 #else
5137 for (y = 0; y < img->height; ++y)
5138 for (x = 0; x < img->width; ++x)
5140 COLORREF p = GetPixel (ximg, x, y);
5141 if (p != bg)
5142 mask_img[y * row_width + x / 8] |= 1 << (x % 8);
5145 /* Create the mask image. */
5146 img->mask = w32_create_pixmap_from_bitmap_data (img->width, img->height,
5147 mask_img);
5148 /* Fill in the background_transparent field while we have the mask handy. */
5149 SelectObject (ximg, img->mask);
5150 image_background_transparent (img, f, ximg);
5152 /* Was: x_destroy_x_image ((XImagePtr )mask_img); which seems bogus ++kfs */
5153 xfree (mask_img);
5154 #endif /* HAVE_NTGUI */
5156 image_unget_x_image_or_dc (img, 0, ximg, prev);
5160 /***********************************************************************
5161 PBM (mono, gray, color)
5162 ***********************************************************************/
5164 static bool pbm_image_p (Lisp_Object object);
5165 static bool pbm_load (struct frame *f, struct image *img);
5167 /* Indices of image specification fields in gs_format, below. */
5169 enum pbm_keyword_index
5171 PBM_TYPE,
5172 PBM_FILE,
5173 PBM_DATA,
5174 PBM_ASCENT,
5175 PBM_MARGIN,
5176 PBM_RELIEF,
5177 PBM_ALGORITHM,
5178 PBM_HEURISTIC_MASK,
5179 PBM_MASK,
5180 PBM_FOREGROUND,
5181 PBM_BACKGROUND,
5182 PBM_LAST
5185 /* Vector of image_keyword structures describing the format
5186 of valid user-defined image specifications. */
5188 static const struct image_keyword pbm_format[PBM_LAST] =
5190 {":type", IMAGE_SYMBOL_VALUE, 1},
5191 {":file", IMAGE_STRING_VALUE, 0},
5192 {":data", IMAGE_STRING_VALUE, 0},
5193 {":ascent", IMAGE_ASCENT_VALUE, 0},
5194 {":margin", IMAGE_NON_NEGATIVE_INTEGER_VALUE_OR_PAIR, 0},
5195 {":relief", IMAGE_INTEGER_VALUE, 0},
5196 {":conversion", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
5197 {":heuristic-mask", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
5198 {":mask", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
5199 {":foreground", IMAGE_STRING_OR_NIL_VALUE, 0},
5200 {":background", IMAGE_STRING_OR_NIL_VALUE, 0}
5203 /* Structure describing the image type `pbm'. */
5205 static struct image_type pbm_type =
5207 SYMBOL_INDEX (Qpbm),
5208 pbm_image_p,
5209 pbm_load,
5210 x_clear_image,
5211 NULL,
5212 NULL
5216 /* Return true if OBJECT is a valid PBM image specification. */
5218 static bool
5219 pbm_image_p (Lisp_Object object)
5221 struct image_keyword fmt[PBM_LAST];
5223 memcpy (fmt, pbm_format, sizeof fmt);
5225 if (!parse_image_spec (object, fmt, PBM_LAST, Qpbm))
5226 return 0;
5228 /* Must specify either :data or :file. */
5229 return fmt[PBM_DATA].count + fmt[PBM_FILE].count == 1;
5233 /* Get next char skipping comments in Netpbm header. Returns -1 at
5234 end of input. */
5236 static int
5237 pbm_next_char (char **s, char *end)
5239 while (*s < end)
5241 unsigned char c = *(*s)++;
5242 if (c != '#')
5243 return c;
5244 while (*s < end)
5246 c = *(*s)++;
5247 if (c == '\n' || c == '\r')
5248 break;
5252 return -1;
5256 /* Scan a decimal number from *S and return it. Advance *S while
5257 reading the number. END is the end of the string. Value is -1 at
5258 end of input. */
5260 static int
5261 pbm_scan_number (char **s, char *end)
5263 int c = 0, val = -1;
5265 /* Skip white-space. */
5266 while ((c = pbm_next_char (s, end)) != -1 && c_isspace (c))
5269 if (c_isdigit (c))
5271 /* Read decimal number. */
5272 val = c - '0';
5273 while ((c = pbm_next_char (s, end)) != -1 && c_isdigit (c))
5274 val = 10 * val + c - '0';
5277 return val;
5280 /* Scan an index from *S and return it. It is a one-byte unsigned
5281 index if !TWO_BYTE, and a two-byte big-endian unsigned index if
5282 TWO_BYTE. */
5284 static int
5285 pbm_scan_index (char **s, bool two_byte)
5287 char *p = *s;
5288 unsigned char c0 = *p++;
5289 int n = c0;
5290 if (two_byte)
5292 unsigned char c1 = *p++;
5293 n = (n << 8) + c1;
5295 *s = p;
5296 return n;
5300 /* Load PBM image IMG for use on frame F. */
5302 static bool
5303 pbm_load (struct frame *f, struct image *img)
5305 bool raw_p;
5306 int x, y;
5307 int width, height, max_color_idx = 0;
5308 Lisp_Object specified_file;
5309 enum {PBM_MONO, PBM_GRAY, PBM_COLOR} type;
5310 char *contents = NULL;
5311 char *end, *p;
5312 #ifndef USE_CAIRO
5313 XImagePtr ximg;
5314 #endif
5316 specified_file = image_spec_value (img->spec, QCfile, NULL);
5318 if (STRINGP (specified_file))
5320 int fd;
5321 Lisp_Object file = x_find_image_fd (specified_file, &fd);
5322 if (!STRINGP (file))
5324 image_error ("Cannot find image file `%s'", specified_file);
5325 return 0;
5328 ptrdiff_t size;
5329 contents = slurp_file (fd, &size);
5330 if (contents == NULL)
5332 image_error ("Error reading `%s'", file);
5333 return 0;
5336 p = contents;
5337 end = contents + size;
5339 else
5341 Lisp_Object data;
5342 data = image_spec_value (img->spec, QCdata, NULL);
5343 if (!STRINGP (data))
5345 image_error ("Invalid image data `%s'", data);
5346 return 0;
5348 p = SSDATA (data);
5349 end = p + SBYTES (data);
5352 /* Check magic number. */
5353 if (end - p < 2 || *p++ != 'P')
5355 image_error ("Not a PBM image: `%s'", img->spec);
5356 error:
5357 xfree (contents);
5358 img->pixmap = NO_PIXMAP;
5359 return 0;
5362 switch (*p++)
5364 case '1':
5365 raw_p = 0, type = PBM_MONO;
5366 break;
5368 case '2':
5369 raw_p = 0, type = PBM_GRAY;
5370 break;
5372 case '3':
5373 raw_p = 0, type = PBM_COLOR;
5374 break;
5376 case '4':
5377 raw_p = 1, type = PBM_MONO;
5378 break;
5380 case '5':
5381 raw_p = 1, type = PBM_GRAY;
5382 break;
5384 case '6':
5385 raw_p = 1, type = PBM_COLOR;
5386 break;
5388 default:
5389 image_error ("Not a PBM image: `%s'", img->spec);
5390 goto error;
5393 /* Read width, height, maximum color-component. Characters
5394 starting with `#' up to the end of a line are ignored. */
5395 width = pbm_scan_number (&p, end);
5396 height = pbm_scan_number (&p, end);
5398 #ifdef USE_CAIRO
5399 void *data = xmalloc (width * height * 4);
5400 uint32_t *dataptr = data;
5401 #endif
5403 if (type != PBM_MONO)
5405 max_color_idx = pbm_scan_number (&p, end);
5406 if (max_color_idx > 65535 || max_color_idx < 0)
5408 image_error ("Unsupported maximum PBM color value");
5409 goto error;
5413 if (!check_image_size (f, width, height))
5415 image_size_error ();
5416 goto error;
5419 #ifndef USE_CAIRO
5420 if (!image_create_x_image_and_pixmap (f, img, width, height, 0, &ximg, 0))
5421 goto error;
5422 #endif
5424 /* Initialize the color hash table. */
5425 init_color_table ();
5427 if (type == PBM_MONO)
5429 unsigned char c = 0;
5430 int g;
5431 struct image_keyword fmt[PBM_LAST];
5432 unsigned long fg = FRAME_FOREGROUND_PIXEL (f);
5433 unsigned long bg = FRAME_BACKGROUND_PIXEL (f);
5434 #ifdef USE_CAIRO
5435 XColor xfg, xbg;
5436 int fga32, bga32;
5437 #endif
5438 /* Parse the image specification. */
5439 memcpy (fmt, pbm_format, sizeof fmt);
5440 parse_image_spec (img->spec, fmt, PBM_LAST, Qpbm);
5442 /* Get foreground and background colors, maybe allocate colors. */
5443 #ifdef USE_CAIRO
5444 if (! fmt[PBM_FOREGROUND].count
5445 || ! STRINGP (fmt[PBM_FOREGROUND].value)
5446 || ! x_defined_color (f, SSDATA (fmt[PBM_FOREGROUND].value), &xfg, 0))
5448 xfg.pixel = fg;
5449 x_query_color (f, &xfg);
5451 fga32 = xcolor_to_argb32 (xfg);
5453 if (! fmt[PBM_BACKGROUND].count
5454 || ! STRINGP (fmt[PBM_BACKGROUND].value)
5455 || ! x_defined_color (f, SSDATA (fmt[PBM_BACKGROUND].value), &xbg, 0))
5457 xbg.pixel = bg;
5458 x_query_color (f, &xbg);
5460 bga32 = xcolor_to_argb32 (xbg);
5461 #else
5462 if (fmt[PBM_FOREGROUND].count
5463 && STRINGP (fmt[PBM_FOREGROUND].value))
5464 fg = x_alloc_image_color (f, img, fmt[PBM_FOREGROUND].value, fg);
5465 if (fmt[PBM_BACKGROUND].count
5466 && STRINGP (fmt[PBM_BACKGROUND].value))
5468 bg = x_alloc_image_color (f, img, fmt[PBM_BACKGROUND].value, bg);
5469 img->background = bg;
5470 img->background_valid = 1;
5472 #endif
5474 for (y = 0; y < height; ++y)
5475 for (x = 0; x < width; ++x)
5477 if (raw_p)
5479 if ((x & 7) == 0)
5481 if (p >= end)
5483 #ifdef USE_CAIRO
5484 xfree (data);
5485 #else
5486 x_destroy_x_image (ximg);
5487 #endif
5488 x_clear_image (f, img);
5489 image_error ("Invalid image size in image `%s'",
5490 img->spec);
5491 goto error;
5493 c = *p++;
5495 g = c & 0x80;
5496 c <<= 1;
5498 else
5500 int c = 0;
5501 /* Skip white-space and comments. */
5502 while ((c = pbm_next_char (&p, end)) != -1 && c_isspace (c))
5505 if (c == '0' || c == '1')
5506 g = c - '0';
5507 else
5508 g = 0;
5511 #ifdef USE_CAIRO
5512 *dataptr++ = g ? fga32 : bga32;
5513 #else
5514 XPutPixel (ximg, x, y, g ? fg : bg);
5515 #endif
5518 else
5520 int expected_size = height * width;
5521 bool two_byte = 255 < max_color_idx;
5522 if (two_byte)
5523 expected_size *= 2;
5524 if (type == PBM_COLOR)
5525 expected_size *= 3;
5527 if (raw_p && p + expected_size > end)
5529 #ifdef USE_CAIRO
5530 xfree (data);
5531 #else
5532 x_destroy_x_image (ximg);
5533 #endif
5534 x_clear_image (f, img);
5535 image_error ("Invalid image size in image `%s'", img->spec);
5536 goto error;
5539 for (y = 0; y < height; ++y)
5540 for (x = 0; x < width; ++x)
5542 int r, g, b;
5544 if (type == PBM_GRAY && raw_p)
5545 r = g = b = pbm_scan_index (&p, two_byte);
5546 else if (type == PBM_GRAY)
5547 r = g = b = pbm_scan_number (&p, end);
5548 else if (raw_p)
5550 r = pbm_scan_index (&p, two_byte);
5551 g = pbm_scan_index (&p, two_byte);
5552 b = pbm_scan_index (&p, two_byte);
5554 else
5556 r = pbm_scan_number (&p, end);
5557 g = pbm_scan_number (&p, end);
5558 b = pbm_scan_number (&p, end);
5561 if (r < 0 || g < 0 || b < 0)
5563 #ifdef USE_CAIRO
5564 xfree (data);
5565 #else
5566 x_destroy_x_image (ximg);
5567 #endif
5568 image_error ("Invalid pixel value in image `%s'", img->spec);
5569 goto error;
5572 #ifdef USE_CAIRO
5573 r = (double) r * 255 / max_color_idx;
5574 g = (double) g * 255 / max_color_idx;
5575 b = (double) b * 255 / max_color_idx;
5576 *dataptr++ = (0xffu << 24) | (r << 16) | (g << 8) | b;
5577 #else
5578 /* RGB values are now in the range 0..max_color_idx.
5579 Scale this to the range 0..0xffff supported by X. */
5580 r = (double) r * 65535 / max_color_idx;
5581 g = (double) g * 65535 / max_color_idx;
5582 b = (double) b * 65535 / max_color_idx;
5583 XPutPixel (ximg, x, y, lookup_rgb_color (f, r, g, b));
5584 #endif
5588 #ifdef COLOR_TABLE_SUPPORT
5589 /* Store in IMG->colors the colors allocated for the image, and
5590 free the color table. */
5591 img->colors = colors_in_color_table (&img->ncolors);
5592 free_color_table ();
5593 #endif /* COLOR_TABLE_SUPPORT */
5595 img->width = width;
5596 img->height = height;
5598 /* Maybe fill in the background field while we have ximg handy. */
5600 #ifdef USE_CAIRO
5601 create_cairo_image_surface (img, data, width, height);
5602 #else
5603 if (NILP (image_spec_value (img->spec, QCbackground, NULL)))
5604 /* Casting avoids a GCC warning. */
5605 IMAGE_BACKGROUND (img, f, (XImagePtr_or_DC)ximg);
5607 /* Put ximg into the image. */
5608 image_put_x_image (f, img, ximg, 0);
5609 #endif
5611 /* X and W32 versions did it here, MAC version above. ++kfs
5612 img->width = width;
5613 img->height = height; */
5615 xfree (contents);
5616 return 1;
5620 /***********************************************************************
5622 ***********************************************************************/
5624 #if defined (HAVE_PNG) || defined (HAVE_NS) || defined (USE_CAIRO)
5626 /* Function prototypes. */
5628 static bool png_image_p (Lisp_Object object);
5629 static bool png_load (struct frame *f, struct image *img);
5631 /* Indices of image specification fields in png_format, below. */
5633 enum png_keyword_index
5635 PNG_TYPE,
5636 PNG_DATA,
5637 PNG_FILE,
5638 PNG_ASCENT,
5639 PNG_MARGIN,
5640 PNG_RELIEF,
5641 PNG_ALGORITHM,
5642 PNG_HEURISTIC_MASK,
5643 PNG_MASK,
5644 PNG_BACKGROUND,
5645 PNG_LAST
5648 /* Vector of image_keyword structures describing the format
5649 of valid user-defined image specifications. */
5651 static const struct image_keyword png_format[PNG_LAST] =
5653 {":type", IMAGE_SYMBOL_VALUE, 1},
5654 {":data", IMAGE_STRING_VALUE, 0},
5655 {":file", IMAGE_STRING_VALUE, 0},
5656 {":ascent", IMAGE_ASCENT_VALUE, 0},
5657 {":margin", IMAGE_NON_NEGATIVE_INTEGER_VALUE_OR_PAIR, 0},
5658 {":relief", IMAGE_INTEGER_VALUE, 0},
5659 {":conversion", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
5660 {":heuristic-mask", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
5661 {":mask", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
5662 {":background", IMAGE_STRING_OR_NIL_VALUE, 0}
5665 #if defined HAVE_NTGUI && defined WINDOWSNT
5666 static bool init_png_functions (void);
5667 #else
5668 #define init_png_functions NULL
5669 #endif
5671 /* Structure describing the image type `png'. */
5673 static struct image_type png_type =
5675 SYMBOL_INDEX (Qpng),
5676 png_image_p,
5677 png_load,
5678 x_clear_image,
5679 init_png_functions,
5680 NULL
5683 /* Return true if OBJECT is a valid PNG image specification. */
5685 static bool
5686 png_image_p (Lisp_Object object)
5688 struct image_keyword fmt[PNG_LAST];
5689 memcpy (fmt, png_format, sizeof fmt);
5691 if (!parse_image_spec (object, fmt, PNG_LAST, Qpng))
5692 return 0;
5694 /* Must specify either the :data or :file keyword. */
5695 return fmt[PNG_FILE].count + fmt[PNG_DATA].count == 1;
5698 #endif /* HAVE_PNG || HAVE_NS || USE_CAIRO */
5701 #if (defined HAVE_PNG && !defined HAVE_NS) || defined USE_CAIRO
5703 # ifdef WINDOWSNT
5704 /* PNG library details. */
5706 DEF_DLL_FN (png_voidp, png_get_io_ptr, (png_structp));
5707 DEF_DLL_FN (int, png_sig_cmp, (png_bytep, png_size_t, png_size_t));
5708 DEF_DLL_FN (png_structp, png_create_read_struct,
5709 (png_const_charp, png_voidp, png_error_ptr, png_error_ptr));
5710 DEF_DLL_FN (png_infop, png_create_info_struct, (png_structp));
5711 DEF_DLL_FN (void, png_destroy_read_struct,
5712 (png_structpp, png_infopp, png_infopp));
5713 DEF_DLL_FN (void, png_set_read_fn, (png_structp, png_voidp, png_rw_ptr));
5714 DEF_DLL_FN (void, png_set_sig_bytes, (png_structp, int));
5715 DEF_DLL_FN (void, png_read_info, (png_structp, png_infop));
5716 DEF_DLL_FN (png_uint_32, png_get_IHDR,
5717 (png_structp, png_infop, png_uint_32 *, png_uint_32 *,
5718 int *, int *, int *, int *, int *));
5719 DEF_DLL_FN (png_uint_32, png_get_valid, (png_structp, png_infop, png_uint_32));
5720 DEF_DLL_FN (void, png_set_strip_16, (png_structp));
5721 DEF_DLL_FN (void, png_set_expand, (png_structp));
5722 DEF_DLL_FN (void, png_set_gray_to_rgb, (png_structp));
5723 DEF_DLL_FN (void, png_set_background,
5724 (png_structp, png_color_16p, int, int, double));
5725 DEF_DLL_FN (png_uint_32, png_get_bKGD,
5726 (png_structp, png_infop, png_color_16p *));
5727 DEF_DLL_FN (void, png_read_update_info, (png_structp, png_infop));
5728 DEF_DLL_FN (png_byte, png_get_channels, (png_structp, png_infop));
5729 DEF_DLL_FN (png_size_t, png_get_rowbytes, (png_structp, png_infop));
5730 DEF_DLL_FN (void, png_read_image, (png_structp, png_bytepp));
5731 DEF_DLL_FN (void, png_read_end, (png_structp, png_infop));
5732 DEF_DLL_FN (void, png_error, (png_structp, png_const_charp));
5734 # if (PNG_LIBPNG_VER >= 10500)
5735 DEF_DLL_FN (void, png_longjmp, (png_structp, int)) PNG_NORETURN;
5736 DEF_DLL_FN (jmp_buf *, png_set_longjmp_fn,
5737 (png_structp, png_longjmp_ptr, size_t));
5738 # endif /* libpng version >= 1.5 */
5740 static bool
5741 init_png_functions (void)
5743 HMODULE library;
5745 if (!(library = w32_delayed_load (Qpng)))
5746 return 0;
5748 LOAD_DLL_FN (library, png_get_io_ptr);
5749 LOAD_DLL_FN (library, png_sig_cmp);
5750 LOAD_DLL_FN (library, png_create_read_struct);
5751 LOAD_DLL_FN (library, png_create_info_struct);
5752 LOAD_DLL_FN (library, png_destroy_read_struct);
5753 LOAD_DLL_FN (library, png_set_read_fn);
5754 LOAD_DLL_FN (library, png_set_sig_bytes);
5755 LOAD_DLL_FN (library, png_read_info);
5756 LOAD_DLL_FN (library, png_get_IHDR);
5757 LOAD_DLL_FN (library, png_get_valid);
5758 LOAD_DLL_FN (library, png_set_strip_16);
5759 LOAD_DLL_FN (library, png_set_expand);
5760 LOAD_DLL_FN (library, png_set_gray_to_rgb);
5761 LOAD_DLL_FN (library, png_set_background);
5762 LOAD_DLL_FN (library, png_get_bKGD);
5763 LOAD_DLL_FN (library, png_read_update_info);
5764 LOAD_DLL_FN (library, png_get_channels);
5765 LOAD_DLL_FN (library, png_get_rowbytes);
5766 LOAD_DLL_FN (library, png_read_image);
5767 LOAD_DLL_FN (library, png_read_end);
5768 LOAD_DLL_FN (library, png_error);
5770 # if (PNG_LIBPNG_VER >= 10500)
5771 LOAD_DLL_FN (library, png_longjmp);
5772 LOAD_DLL_FN (library, png_set_longjmp_fn);
5773 # endif /* libpng version >= 1.5 */
5775 return 1;
5778 # undef png_create_info_struct
5779 # undef png_create_read_struct
5780 # undef png_destroy_read_struct
5781 # undef png_error
5782 # undef png_get_bKGD
5783 # undef png_get_channels
5784 # undef png_get_IHDR
5785 # undef png_get_io_ptr
5786 # undef png_get_rowbytes
5787 # undef png_get_valid
5788 # undef png_longjmp
5789 # undef png_read_end
5790 # undef png_read_image
5791 # undef png_read_info
5792 # undef png_read_update_info
5793 # undef png_set_background
5794 # undef png_set_expand
5795 # undef png_set_gray_to_rgb
5796 # undef png_set_longjmp_fn
5797 # undef png_set_read_fn
5798 # undef png_set_sig_bytes
5799 # undef png_set_strip_16
5800 # undef png_sig_cmp
5802 # define png_create_info_struct fn_png_create_info_struct
5803 # define png_create_read_struct fn_png_create_read_struct
5804 # define png_destroy_read_struct fn_png_destroy_read_struct
5805 # define png_error fn_png_error
5806 # define png_get_bKGD fn_png_get_bKGD
5807 # define png_get_channels fn_png_get_channels
5808 # define png_get_IHDR fn_png_get_IHDR
5809 # define png_get_io_ptr fn_png_get_io_ptr
5810 # define png_get_rowbytes fn_png_get_rowbytes
5811 # define png_get_valid fn_png_get_valid
5812 # define png_longjmp fn_png_longjmp
5813 # define png_read_end fn_png_read_end
5814 # define png_read_image fn_png_read_image
5815 # define png_read_info fn_png_read_info
5816 # define png_read_update_info fn_png_read_update_info
5817 # define png_set_background fn_png_set_background
5818 # define png_set_expand fn_png_set_expand
5819 # define png_set_gray_to_rgb fn_png_set_gray_to_rgb
5820 # define png_set_longjmp_fn fn_png_set_longjmp_fn
5821 # define png_set_read_fn fn_png_set_read_fn
5822 # define png_set_sig_bytes fn_png_set_sig_bytes
5823 # define png_set_strip_16 fn_png_set_strip_16
5824 # define png_sig_cmp fn_png_sig_cmp
5826 # endif /* WINDOWSNT */
5828 /* Fast implementations of setjmp and longjmp. Although setjmp and longjmp
5829 will do, POSIX _setjmp and _longjmp (if available) are often faster.
5830 Do not use sys_setjmp, as PNG supports only jmp_buf.
5831 It's OK if the longjmp substitute restores the signal mask. */
5832 # ifdef HAVE__SETJMP
5833 # define FAST_SETJMP(j) _setjmp (j)
5834 # define FAST_LONGJMP _longjmp
5835 # else
5836 # define FAST_SETJMP(j) setjmp (j)
5837 # define FAST_LONGJMP longjmp
5838 # endif
5840 # if PNG_LIBPNG_VER < 10500
5841 # define PNG_LONGJMP(ptr) FAST_LONGJMP ((ptr)->jmpbuf, 1)
5842 # define PNG_JMPBUF(ptr) ((ptr)->jmpbuf)
5843 # else
5844 /* In libpng version 1.5, the jmpbuf member is hidden. (Bug#7908) */
5845 # define PNG_LONGJMP(ptr) png_longjmp (ptr, 1)
5846 # define PNG_JMPBUF(ptr) \
5847 (*png_set_longjmp_fn (ptr, FAST_LONGJMP, sizeof (jmp_buf)))
5848 # endif
5850 /* Error and warning handlers installed when the PNG library
5851 is initialized. */
5853 static _Noreturn void
5854 my_png_error (png_struct *png_ptr, const char *msg)
5856 eassert (png_ptr != NULL);
5857 /* Avoid compiler warning about deprecated direct access to
5858 png_ptr's fields in libpng versions 1.4.x. */
5859 image_error ("PNG error: %s", build_string (msg));
5860 PNG_LONGJMP (png_ptr);
5864 static void
5865 my_png_warning (png_struct *png_ptr, const char *msg)
5867 eassert (png_ptr != NULL);
5868 image_error ("PNG warning: %s", build_string (msg));
5871 /* Memory source for PNG decoding. */
5873 struct png_memory_storage
5875 unsigned char *bytes; /* The data */
5876 ptrdiff_t len; /* How big is it? */
5877 ptrdiff_t index; /* Where are we? */
5881 /* Function set as reader function when reading PNG image from memory.
5882 PNG_PTR is a pointer to the PNG control structure. Copy LENGTH
5883 bytes from the input to DATA. */
5885 static void
5886 png_read_from_memory (png_structp png_ptr, png_bytep data, png_size_t length)
5888 struct png_memory_storage *tbr = png_get_io_ptr (png_ptr);
5890 if (length > tbr->len - tbr->index)
5891 png_error (png_ptr, "Read error");
5893 memcpy (data, tbr->bytes + tbr->index, length);
5894 tbr->index = tbr->index + length;
5898 /* Function set as reader function when reading PNG image from a file.
5899 PNG_PTR is a pointer to the PNG control structure. Copy LENGTH
5900 bytes from the input to DATA. */
5902 static void
5903 png_read_from_file (png_structp png_ptr, png_bytep data, png_size_t length)
5905 FILE *fp = png_get_io_ptr (png_ptr);
5907 if (fread_unlocked (data, 1, length, fp) < length)
5908 png_error (png_ptr, "Read error");
5912 /* Load PNG image IMG for use on frame F. Value is true if
5913 successful. */
5915 struct png_load_context
5917 /* These are members so that longjmp doesn't munge local variables. */
5918 png_struct *png_ptr;
5919 png_info *info_ptr;
5920 png_info *end_info;
5921 FILE *fp;
5922 png_byte *pixels;
5923 png_byte **rows;
5926 static bool
5927 png_load_body (struct frame *f, struct image *img, struct png_load_context *c)
5929 Lisp_Object specified_file, specified_data;
5930 FILE *fp = NULL;
5931 int x, y;
5932 ptrdiff_t i;
5933 png_struct *png_ptr;
5934 png_info *info_ptr = NULL, *end_info = NULL;
5935 png_byte sig[8];
5936 png_byte *pixels = NULL;
5937 png_byte **rows = NULL;
5938 png_uint_32 width, height;
5939 int bit_depth, color_type, interlace_type;
5940 png_byte channels;
5941 png_uint_32 row_bytes;
5942 bool transparent_p;
5943 struct png_memory_storage tbr; /* Data to be read */
5944 ptrdiff_t nbytes;
5946 #ifdef USE_CAIRO
5947 unsigned char *data = 0;
5948 uint32_t *dataptr;
5949 #else
5950 XImagePtr ximg, mask_img = NULL;
5951 #endif
5953 /* Find out what file to load. */
5954 specified_file = image_spec_value (img->spec, QCfile, NULL);
5955 specified_data = image_spec_value (img->spec, QCdata, NULL);
5957 if (NILP (specified_data))
5959 int fd;
5960 Lisp_Object file = x_find_image_fd (specified_file, &fd);
5961 if (!STRINGP (file))
5963 image_error ("Cannot find image file `%s'", specified_file);
5964 return 0;
5967 /* Open the image file. */
5968 fp = fdopen (fd, "rb");
5969 if (!fp)
5971 image_error ("Cannot open image file `%s'", file);
5972 return 0;
5975 /* Check PNG signature. */
5976 if (fread_unlocked (sig, 1, sizeof sig, fp) != sizeof sig
5977 || png_sig_cmp (sig, 0, sizeof sig))
5979 fclose (fp);
5980 image_error ("Not a PNG file: `%s'", file);
5981 return 0;
5984 else
5986 if (!STRINGP (specified_data))
5988 image_error ("Invalid image data `%s'", specified_data);
5989 return 0;
5992 /* Read from memory. */
5993 tbr.bytes = SDATA (specified_data);
5994 tbr.len = SBYTES (specified_data);
5995 tbr.index = 0;
5997 /* Check PNG signature. */
5998 if (tbr.len < sizeof sig
5999 || png_sig_cmp (tbr.bytes, 0, sizeof sig))
6001 image_error ("Not a PNG image: `%s'", img->spec);
6002 return 0;
6005 /* Need to skip past the signature. */
6006 tbr.bytes += sizeof (sig);
6009 /* Initialize read and info structs for PNG lib. */
6010 png_ptr = png_create_read_struct (PNG_LIBPNG_VER_STRING,
6011 NULL, my_png_error,
6012 my_png_warning);
6013 if (png_ptr)
6015 info_ptr = png_create_info_struct (png_ptr);
6016 end_info = png_create_info_struct (png_ptr);
6019 c->png_ptr = png_ptr;
6020 c->info_ptr = info_ptr;
6021 c->end_info = end_info;
6022 c->fp = fp;
6023 c->pixels = pixels;
6024 c->rows = rows;
6026 if (! (info_ptr && end_info))
6028 png_destroy_read_struct (&c->png_ptr, &c->info_ptr, &c->end_info);
6029 png_ptr = 0;
6031 if (! png_ptr)
6033 if (fp) fclose (fp);
6034 return 0;
6037 /* Set error jump-back. We come back here when the PNG library
6038 detects an error. */
6039 if (FAST_SETJMP (PNG_JMPBUF (png_ptr)))
6041 error:
6042 if (c->png_ptr)
6043 png_destroy_read_struct (&c->png_ptr, &c->info_ptr, &c->end_info);
6044 xfree (c->pixels);
6045 xfree (c->rows);
6046 if (c->fp)
6047 fclose (c->fp);
6048 return 0;
6051 /* Read image info. */
6052 if (!NILP (specified_data))
6053 png_set_read_fn (png_ptr, &tbr, png_read_from_memory);
6054 else
6055 png_set_read_fn (png_ptr, fp, png_read_from_file);
6057 png_set_sig_bytes (png_ptr, sizeof sig);
6058 png_read_info (png_ptr, info_ptr);
6059 png_get_IHDR (png_ptr, info_ptr, &width, &height, &bit_depth, &color_type,
6060 &interlace_type, NULL, NULL);
6062 if (! (width <= INT_MAX && height <= INT_MAX
6063 && check_image_size (f, width, height)))
6065 image_size_error ();
6066 goto error;
6069 #ifndef USE_CAIRO
6070 /* Create the X image and pixmap now, so that the work below can be
6071 omitted if the image is too large for X. */
6072 if (!image_create_x_image_and_pixmap (f, img, width, height, 0, &ximg, 0))
6073 goto error;
6074 #endif
6076 /* If image contains simply transparency data, we prefer to
6077 construct a clipping mask. */
6078 if (png_get_valid (png_ptr, info_ptr, PNG_INFO_tRNS))
6079 transparent_p = 1;
6080 else
6081 transparent_p = 0;
6083 /* This function is easier to write if we only have to handle
6084 one data format: RGB or RGBA with 8 bits per channel. Let's
6085 transform other formats into that format. */
6087 /* Strip more than 8 bits per channel. */
6088 if (bit_depth == 16)
6089 png_set_strip_16 (png_ptr);
6091 /* Expand data to 24 bit RGB, or 8 bit grayscale, with alpha channel
6092 if available. */
6093 png_set_expand (png_ptr);
6095 /* Convert grayscale images to RGB. */
6096 if (color_type == PNG_COLOR_TYPE_GRAY
6097 || color_type == PNG_COLOR_TYPE_GRAY_ALPHA)
6098 png_set_gray_to_rgb (png_ptr);
6100 /* Handle alpha channel by combining the image with a background
6101 color. Do this only if a real alpha channel is supplied. For
6102 simple transparency, we prefer a clipping mask. */
6103 if (!transparent_p)
6105 /* png_color_16 *image_bg; */
6106 Lisp_Object specified_bg
6107 = image_spec_value (img->spec, QCbackground, NULL);
6108 XColor color;
6110 /* If the user specified a color, try to use it; if not, use the
6111 current frame background, ignoring any default background
6112 color set by the image. */
6113 if (STRINGP (specified_bg)
6114 ? x_defined_color (f, SSDATA (specified_bg), &color, false)
6115 : (x_query_frame_background_color (f, &color), true))
6116 /* The user specified `:background', use that. */
6118 int shift = bit_depth == 16 ? 0 : 8;
6119 png_color_16 bg = { 0 };
6120 bg.red = color.red >> shift;
6121 bg.green = color.green >> shift;
6122 bg.blue = color.blue >> shift;
6124 png_set_background (png_ptr, &bg,
6125 PNG_BACKGROUND_GAMMA_SCREEN, 0, 1.0);
6129 /* Update info structure. */
6130 png_read_update_info (png_ptr, info_ptr);
6132 /* Get number of channels. Valid values are 1 for grayscale images
6133 and images with a palette, 2 for grayscale images with transparency
6134 information (alpha channel), 3 for RGB images, and 4 for RGB
6135 images with alpha channel, i.e. RGBA. If conversions above were
6136 sufficient we should only have 3 or 4 channels here. */
6137 channels = png_get_channels (png_ptr, info_ptr);
6138 eassert (channels == 3 || channels == 4);
6140 /* Number of bytes needed for one row of the image. */
6141 row_bytes = png_get_rowbytes (png_ptr, info_ptr);
6143 /* Allocate memory for the image. */
6144 if (INT_MULTIPLY_WRAPV (row_bytes, sizeof *pixels, &nbytes)
6145 || INT_MULTIPLY_WRAPV (nbytes, height, &nbytes))
6146 memory_full (SIZE_MAX);
6147 c->pixels = pixels = xmalloc (nbytes);
6148 c->rows = rows = xmalloc (height * sizeof *rows);
6149 for (i = 0; i < height; ++i)
6150 rows[i] = pixels + i * row_bytes;
6152 /* Read the entire image. */
6153 png_read_image (png_ptr, rows);
6154 png_read_end (png_ptr, info_ptr);
6155 if (fp)
6157 fclose (fp);
6158 c->fp = NULL;
6161 #ifdef USE_CAIRO
6162 data = (unsigned char *) xmalloc (width * height * 4);
6163 dataptr = (uint32_t *) data;
6164 #else
6165 /* Create an image and pixmap serving as mask if the PNG image
6166 contains an alpha channel. */
6167 if (channels == 4
6168 && !transparent_p
6169 && !image_create_x_image_and_pixmap (f, img, width, height, 1,
6170 &mask_img, 1))
6172 x_destroy_x_image (ximg);
6173 x_clear_image_1 (f, img, CLEAR_IMAGE_PIXMAP);
6174 goto error;
6176 #endif
6178 /* Fill the X image and mask from PNG data. */
6179 init_color_table ();
6181 for (y = 0; y < height; ++y)
6183 png_byte *p = rows[y];
6185 for (x = 0; x < width; ++x)
6187 int r, g, b;
6189 #ifdef USE_CAIRO
6190 int a = 0xff;
6191 r = *p++;
6192 g = *p++;
6193 b = *p++;
6194 if (channels == 4) a = *p++;
6195 *dataptr++ = (a << 24) | (r << 16) | (g << 8) | b;
6196 #else
6197 r = *p++ << 8;
6198 g = *p++ << 8;
6199 b = *p++ << 8;
6200 XPutPixel (ximg, x, y, lookup_rgb_color (f, r, g, b));
6201 /* An alpha channel, aka mask channel, associates variable
6202 transparency with an image. Where other image formats
6203 support binary transparency---fully transparent or fully
6204 opaque---PNG allows up to 254 levels of partial transparency.
6205 The PNG library implements partial transparency by combining
6206 the image with a specified background color.
6208 I'm not sure how to handle this here nicely: because the
6209 background on which the image is displayed may change, for
6210 real alpha channel support, it would be necessary to create
6211 a new image for each possible background.
6213 What I'm doing now is that a mask is created if we have
6214 boolean transparency information. Otherwise I'm using
6215 the frame's background color to combine the image with. */
6217 if (channels == 4)
6219 if (mask_img)
6220 XPutPixel (mask_img, x, y, *p > 0 ? PIX_MASK_DRAW : PIX_MASK_RETAIN);
6221 ++p;
6223 #endif
6227 if (NILP (image_spec_value (img->spec, QCbackground, NULL)))
6228 /* Set IMG's background color from the PNG image, unless the user
6229 overrode it. */
6231 png_color_16 *bg;
6232 if (png_get_bKGD (png_ptr, info_ptr, &bg))
6234 img->background = lookup_rgb_color (f, bg->red, bg->green, bg->blue);
6235 img->background_valid = 1;
6239 # ifdef COLOR_TABLE_SUPPORT
6240 /* Remember colors allocated for this image. */
6241 img->colors = colors_in_color_table (&img->ncolors);
6242 free_color_table ();
6243 # endif /* COLOR_TABLE_SUPPORT */
6245 /* Clean up. */
6246 png_destroy_read_struct (&c->png_ptr, &c->info_ptr, &c->end_info);
6247 xfree (rows);
6248 xfree (pixels);
6250 img->width = width;
6251 img->height = height;
6253 #ifdef USE_CAIRO
6254 create_cairo_image_surface (img, data, width, height);
6255 #else
6256 /* Maybe fill in the background field while we have ximg handy.
6257 Casting avoids a GCC warning. */
6258 IMAGE_BACKGROUND (img, f, (XImagePtr_or_DC)ximg);
6260 /* Put ximg into the image. */
6261 image_put_x_image (f, img, ximg, 0);
6263 /* Same for the mask. */
6264 if (mask_img)
6266 /* Fill in the background_transparent field while we have the
6267 mask handy. Casting avoids a GCC warning. */
6268 image_background_transparent (img, f, (XImagePtr_or_DC)mask_img);
6270 image_put_x_image (f, img, mask_img, 1);
6272 #endif
6274 return 1;
6277 static bool
6278 png_load (struct frame *f, struct image *img)
6280 struct png_load_context c;
6281 return png_load_body (f, img, &c);
6284 #elif defined HAVE_NS
6286 static bool
6287 png_load (struct frame *f, struct image *img)
6289 return ns_load_image (f, img,
6290 image_spec_value (img->spec, QCfile, NULL),
6291 image_spec_value (img->spec, QCdata, NULL));
6295 #endif /* HAVE_NS */
6299 /***********************************************************************
6300 JPEG
6301 ***********************************************************************/
6303 #if defined (HAVE_JPEG) || defined (HAVE_NS)
6305 static bool jpeg_image_p (Lisp_Object object);
6306 static bool jpeg_load (struct frame *f, struct image *img);
6308 /* Indices of image specification fields in gs_format, below. */
6310 enum jpeg_keyword_index
6312 JPEG_TYPE,
6313 JPEG_DATA,
6314 JPEG_FILE,
6315 JPEG_ASCENT,
6316 JPEG_MARGIN,
6317 JPEG_RELIEF,
6318 JPEG_ALGORITHM,
6319 JPEG_HEURISTIC_MASK,
6320 JPEG_MASK,
6321 JPEG_BACKGROUND,
6322 JPEG_LAST
6325 /* Vector of image_keyword structures describing the format
6326 of valid user-defined image specifications. */
6328 static const struct image_keyword jpeg_format[JPEG_LAST] =
6330 {":type", IMAGE_SYMBOL_VALUE, 1},
6331 {":data", IMAGE_STRING_VALUE, 0},
6332 {":file", IMAGE_STRING_VALUE, 0},
6333 {":ascent", IMAGE_ASCENT_VALUE, 0},
6334 {":margin", IMAGE_NON_NEGATIVE_INTEGER_VALUE_OR_PAIR, 0},
6335 {":relief", IMAGE_INTEGER_VALUE, 0},
6336 {":conversions", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
6337 {":heuristic-mask", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
6338 {":mask", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
6339 {":background", IMAGE_STRING_OR_NIL_VALUE, 0}
6342 #if defined HAVE_NTGUI && defined WINDOWSNT
6343 static bool init_jpeg_functions (void);
6344 #else
6345 #define init_jpeg_functions NULL
6346 #endif
6348 /* Structure describing the image type `jpeg'. */
6350 static struct image_type jpeg_type =
6352 SYMBOL_INDEX (Qjpeg),
6353 jpeg_image_p,
6354 jpeg_load,
6355 x_clear_image,
6356 init_jpeg_functions,
6357 NULL
6360 /* Return true if OBJECT is a valid JPEG image specification. */
6362 static bool
6363 jpeg_image_p (Lisp_Object object)
6365 struct image_keyword fmt[JPEG_LAST];
6367 memcpy (fmt, jpeg_format, sizeof fmt);
6369 if (!parse_image_spec (object, fmt, JPEG_LAST, Qjpeg))
6370 return 0;
6372 /* Must specify either the :data or :file keyword. */
6373 return fmt[JPEG_FILE].count + fmt[JPEG_DATA].count == 1;
6376 #endif /* HAVE_JPEG || HAVE_NS */
6378 #ifdef HAVE_JPEG
6380 /* Work around a warning about HAVE_STDLIB_H being redefined in
6381 jconfig.h. */
6382 # ifdef HAVE_STDLIB_H
6383 # undef HAVE_STDLIB_H
6384 # endif
6386 # if defined (HAVE_NTGUI) && !defined (__WIN32__)
6387 /* In older releases of the jpeg library, jpeglib.h will define boolean
6388 differently depending on __WIN32__, so make sure it is defined. */
6389 # define __WIN32__ 1
6390 # endif
6392 /* rpcndr.h (via windows.h) and jpeglib.h both define boolean types.
6393 Some versions of jpeglib try to detect whether rpcndr.h is loaded,
6394 using the Windows boolean type instead of the jpeglib boolean type
6395 if so. Cygwin jpeglib, however, doesn't try to detect whether its
6396 headers are included along with windows.h, so under Cygwin, jpeglib
6397 attempts to define a conflicting boolean type. Worse, forcing
6398 Cygwin jpeglib headers to use the Windows boolean type doesn't work
6399 because it created an ABI incompatibility between the
6400 already-compiled jpeg library and the header interface definition.
6402 The best we can do is to define jpeglib's boolean type to a
6403 different name. This name, jpeg_boolean, remains in effect through
6404 the rest of image.c.
6406 # if defined CYGWIN && defined HAVE_NTGUI
6407 # define boolean jpeg_boolean
6408 # endif
6409 # include <jpeglib.h>
6410 # include <jerror.h>
6412 # ifdef WINDOWSNT
6414 /* JPEG library details. */
6415 DEF_DLL_FN (void, jpeg_CreateDecompress, (j_decompress_ptr, int, size_t));
6416 DEF_DLL_FN (boolean, jpeg_start_decompress, (j_decompress_ptr));
6417 DEF_DLL_FN (boolean, jpeg_finish_decompress, (j_decompress_ptr));
6418 DEF_DLL_FN (void, jpeg_destroy_decompress, (j_decompress_ptr));
6419 DEF_DLL_FN (int, jpeg_read_header, (j_decompress_ptr, boolean));
6420 DEF_DLL_FN (JDIMENSION, jpeg_read_scanlines,
6421 (j_decompress_ptr, JSAMPARRAY, JDIMENSION));
6422 DEF_DLL_FN (struct jpeg_error_mgr *, jpeg_std_error,
6423 (struct jpeg_error_mgr *));
6424 DEF_DLL_FN (boolean, jpeg_resync_to_restart, (j_decompress_ptr, int));
6426 static bool
6427 init_jpeg_functions (void)
6429 HMODULE library;
6431 if (!(library = w32_delayed_load (Qjpeg)))
6432 return 0;
6434 LOAD_DLL_FN (library, jpeg_finish_decompress);
6435 LOAD_DLL_FN (library, jpeg_read_scanlines);
6436 LOAD_DLL_FN (library, jpeg_start_decompress);
6437 LOAD_DLL_FN (library, jpeg_read_header);
6438 LOAD_DLL_FN (library, jpeg_CreateDecompress);
6439 LOAD_DLL_FN (library, jpeg_destroy_decompress);
6440 LOAD_DLL_FN (library, jpeg_std_error);
6441 LOAD_DLL_FN (library, jpeg_resync_to_restart);
6442 return 1;
6445 # undef jpeg_CreateDecompress
6446 # undef jpeg_destroy_decompress
6447 # undef jpeg_finish_decompress
6448 # undef jpeg_read_header
6449 # undef jpeg_read_scanlines
6450 # undef jpeg_resync_to_restart
6451 # undef jpeg_start_decompress
6452 # undef jpeg_std_error
6454 # define jpeg_CreateDecompress fn_jpeg_CreateDecompress
6455 # define jpeg_destroy_decompress fn_jpeg_destroy_decompress
6456 # define jpeg_finish_decompress fn_jpeg_finish_decompress
6457 # define jpeg_read_header fn_jpeg_read_header
6458 # define jpeg_read_scanlines fn_jpeg_read_scanlines
6459 # define jpeg_resync_to_restart fn_jpeg_resync_to_restart
6460 # define jpeg_start_decompress fn_jpeg_start_decompress
6461 # define jpeg_std_error fn_jpeg_std_error
6463 /* Wrapper since we can't directly assign the function pointer
6464 to another function pointer that was declared more completely easily. */
6465 static boolean
6466 jpeg_resync_to_restart_wrapper (j_decompress_ptr cinfo, int desired)
6468 return jpeg_resync_to_restart (cinfo, desired);
6470 # undef jpeg_resync_to_restart
6471 # define jpeg_resync_to_restart jpeg_resync_to_restart_wrapper
6473 # endif /* WINDOWSNT */
6475 struct my_jpeg_error_mgr
6477 struct jpeg_error_mgr pub;
6478 sys_jmp_buf setjmp_buffer;
6480 /* The remaining members are so that longjmp doesn't munge local
6481 variables. */
6482 struct jpeg_decompress_struct cinfo;
6483 enum
6485 MY_JPEG_ERROR_EXIT,
6486 MY_JPEG_INVALID_IMAGE_SIZE,
6487 MY_JPEG_CANNOT_CREATE_X
6488 } failure_code;
6492 static _Noreturn void
6493 my_error_exit (j_common_ptr cinfo)
6495 struct my_jpeg_error_mgr *mgr = (struct my_jpeg_error_mgr *) cinfo->err;
6496 mgr->failure_code = MY_JPEG_ERROR_EXIT;
6497 sys_longjmp (mgr->setjmp_buffer, 1);
6501 /* Init source method for JPEG data source manager. Called by
6502 jpeg_read_header() before any data is actually read. See
6503 libjpeg.doc from the JPEG lib distribution. */
6505 static void
6506 our_common_init_source (j_decompress_ptr cinfo)
6511 /* Method to terminate data source. Called by
6512 jpeg_finish_decompress() after all data has been processed. */
6514 static void
6515 our_common_term_source (j_decompress_ptr cinfo)
6520 /* Fill input buffer method for JPEG data source manager. Called
6521 whenever more data is needed. We read the whole image in one step,
6522 so this only adds a fake end of input marker at the end. */
6524 static JOCTET our_memory_buffer[2];
6526 static boolean
6527 our_memory_fill_input_buffer (j_decompress_ptr cinfo)
6529 /* Insert a fake EOI marker. */
6530 struct jpeg_source_mgr *src = cinfo->src;
6532 our_memory_buffer[0] = (JOCTET) 0xFF;
6533 our_memory_buffer[1] = (JOCTET) JPEG_EOI;
6535 src->next_input_byte = our_memory_buffer;
6536 src->bytes_in_buffer = 2;
6537 return 1;
6541 /* Method to skip over NUM_BYTES bytes in the image data. CINFO->src
6542 is the JPEG data source manager. */
6544 static void
6545 our_memory_skip_input_data (j_decompress_ptr cinfo, long int num_bytes)
6547 struct jpeg_source_mgr *src = cinfo->src;
6549 if (src)
6551 if (num_bytes > src->bytes_in_buffer)
6552 ERREXIT (cinfo, JERR_INPUT_EOF);
6554 src->bytes_in_buffer -= num_bytes;
6555 src->next_input_byte += num_bytes;
6560 /* Set up the JPEG lib for reading an image from DATA which contains
6561 LEN bytes. CINFO is the decompression info structure created for
6562 reading the image. */
6564 static void
6565 jpeg_memory_src (j_decompress_ptr cinfo, JOCTET *data, ptrdiff_t len)
6567 struct jpeg_source_mgr *src = cinfo->src;
6569 if (! src)
6571 /* First time for this JPEG object? */
6572 src = cinfo->mem->alloc_small ((j_common_ptr) cinfo,
6573 JPOOL_PERMANENT, sizeof *src);
6574 cinfo->src = src;
6575 src->next_input_byte = data;
6578 src->init_source = our_common_init_source;
6579 src->fill_input_buffer = our_memory_fill_input_buffer;
6580 src->skip_input_data = our_memory_skip_input_data;
6581 src->resync_to_restart = jpeg_resync_to_restart; /* Use default method. */
6582 src->term_source = our_common_term_source;
6583 src->bytes_in_buffer = len;
6584 src->next_input_byte = data;
6588 struct jpeg_stdio_mgr
6590 struct jpeg_source_mgr mgr;
6591 boolean finished;
6592 FILE *file;
6593 JOCTET *buffer;
6597 /* Size of buffer to read JPEG from file.
6598 Not too big, as we want to use alloc_small. */
6599 #define JPEG_STDIO_BUFFER_SIZE 8192
6602 /* Fill input buffer method for JPEG data source manager. Called
6603 whenever more data is needed. The data is read from a FILE *. */
6605 static boolean
6606 our_stdio_fill_input_buffer (j_decompress_ptr cinfo)
6608 struct jpeg_stdio_mgr *src;
6610 src = (struct jpeg_stdio_mgr *) cinfo->src;
6611 if (!src->finished)
6613 ptrdiff_t bytes;
6615 bytes = fread_unlocked (src->buffer, 1, JPEG_STDIO_BUFFER_SIZE,
6616 src->file);
6617 if (bytes > 0)
6618 src->mgr.bytes_in_buffer = bytes;
6619 else
6621 WARNMS (cinfo, JWRN_JPEG_EOF);
6622 src->finished = 1;
6623 src->buffer[0] = (JOCTET) 0xFF;
6624 src->buffer[1] = (JOCTET) JPEG_EOI;
6625 src->mgr.bytes_in_buffer = 2;
6627 src->mgr.next_input_byte = src->buffer;
6630 return 1;
6634 /* Method to skip over NUM_BYTES bytes in the image data. CINFO->src
6635 is the JPEG data source manager. */
6637 static void
6638 our_stdio_skip_input_data (j_decompress_ptr cinfo, long int num_bytes)
6640 struct jpeg_stdio_mgr *src;
6641 src = (struct jpeg_stdio_mgr *) cinfo->src;
6643 while (num_bytes > 0 && !src->finished)
6645 if (num_bytes <= src->mgr.bytes_in_buffer)
6647 src->mgr.bytes_in_buffer -= num_bytes;
6648 src->mgr.next_input_byte += num_bytes;
6649 break;
6651 else
6653 num_bytes -= src->mgr.bytes_in_buffer;
6654 src->mgr.bytes_in_buffer = 0;
6655 src->mgr.next_input_byte = NULL;
6657 our_stdio_fill_input_buffer (cinfo);
6663 /* Set up the JPEG lib for reading an image from a FILE *.
6664 CINFO is the decompression info structure created for
6665 reading the image. */
6667 static void
6668 jpeg_file_src (j_decompress_ptr cinfo, FILE *fp)
6670 struct jpeg_stdio_mgr *src = (struct jpeg_stdio_mgr *) cinfo->src;
6672 if (! src)
6674 /* First time for this JPEG object? */
6675 src = cinfo->mem->alloc_small ((j_common_ptr) cinfo,
6676 JPOOL_PERMANENT, sizeof *src);
6677 cinfo->src = (struct jpeg_source_mgr *) src;
6678 src->buffer = cinfo->mem->alloc_small ((j_common_ptr) cinfo,
6679 JPOOL_PERMANENT,
6680 JPEG_STDIO_BUFFER_SIZE);
6683 src->file = fp;
6684 src->finished = 0;
6685 src->mgr.init_source = our_common_init_source;
6686 src->mgr.fill_input_buffer = our_stdio_fill_input_buffer;
6687 src->mgr.skip_input_data = our_stdio_skip_input_data;
6688 src->mgr.resync_to_restart = jpeg_resync_to_restart; /* Use default. */
6689 src->mgr.term_source = our_common_term_source;
6690 src->mgr.bytes_in_buffer = 0;
6691 src->mgr.next_input_byte = NULL;
6694 /* Load image IMG for use on frame F. Patterned after example.c
6695 from the JPEG lib. */
6697 static bool
6698 jpeg_load_body (struct frame *f, struct image *img,
6699 struct my_jpeg_error_mgr *mgr)
6701 Lisp_Object specified_file, specified_data;
6702 FILE *volatile fp = NULL;
6703 JSAMPARRAY buffer;
6704 int row_stride, x, y;
6705 unsigned long *colors;
6706 int width, height;
6707 int i, ir, ig, ib;
6708 #ifndef USE_CAIRO
6709 XImagePtr ximg = NULL;
6710 #endif
6712 /* Open the JPEG file. */
6713 specified_file = image_spec_value (img->spec, QCfile, NULL);
6714 specified_data = image_spec_value (img->spec, QCdata, NULL);
6716 if (NILP (specified_data))
6718 int fd;
6719 Lisp_Object file = x_find_image_fd (specified_file, &fd);
6720 if (!STRINGP (file))
6722 image_error ("Cannot find image file `%s'", specified_file);
6723 return 0;
6726 fp = fdopen (fd, "rb");
6727 if (fp == NULL)
6729 image_error ("Cannot open `%s'", file);
6730 return 0;
6733 else if (!STRINGP (specified_data))
6735 image_error ("Invalid image data `%s'", specified_data);
6736 return 0;
6739 /* Customize libjpeg's error handling to call my_error_exit when an
6740 error is detected. This function will perform a longjmp. */
6741 mgr->cinfo.err = jpeg_std_error (&mgr->pub);
6742 mgr->pub.error_exit = my_error_exit;
6743 if (sys_setjmp (mgr->setjmp_buffer))
6745 switch (mgr->failure_code)
6747 case MY_JPEG_ERROR_EXIT:
6749 char buf[JMSG_LENGTH_MAX];
6750 mgr->cinfo.err->format_message ((j_common_ptr) &mgr->cinfo, buf);
6751 image_error ("Error reading JPEG image `%s': %s",
6752 img->spec, build_string (buf));
6753 break;
6756 case MY_JPEG_INVALID_IMAGE_SIZE:
6757 image_size_error ();
6758 break;
6760 case MY_JPEG_CANNOT_CREATE_X:
6761 break;
6764 /* Close the input file and destroy the JPEG object. */
6765 if (fp)
6766 fclose (fp);
6767 jpeg_destroy_decompress (&mgr->cinfo);
6769 /* If we already have an XImage, free that. */
6770 #ifndef USE_CAIRO
6771 x_destroy_x_image (ximg);
6772 #endif
6773 /* Free pixmap and colors. */
6774 x_clear_image (f, img);
6775 return 0;
6778 /* Create the JPEG decompression object. Let it read from fp.
6779 Read the JPEG image header. */
6780 jpeg_CreateDecompress (&mgr->cinfo, JPEG_LIB_VERSION, sizeof *&mgr->cinfo);
6782 if (NILP (specified_data))
6783 jpeg_file_src (&mgr->cinfo, fp);
6784 else
6785 jpeg_memory_src (&mgr->cinfo, SDATA (specified_data),
6786 SBYTES (specified_data));
6788 jpeg_read_header (&mgr->cinfo, 1);
6790 /* Customize decompression so that color quantization will be used.
6791 Start decompression. */
6792 mgr->cinfo.quantize_colors = 1;
6793 jpeg_start_decompress (&mgr->cinfo);
6794 width = img->width = mgr->cinfo.output_width;
6795 height = img->height = mgr->cinfo.output_height;
6797 if (!check_image_size (f, width, height))
6799 mgr->failure_code = MY_JPEG_INVALID_IMAGE_SIZE;
6800 sys_longjmp (mgr->setjmp_buffer, 1);
6803 #ifndef USE_CAIRO
6804 /* Create X image and pixmap. */
6805 if (!image_create_x_image_and_pixmap (f, img, width, height, 0, &ximg, 0))
6807 mgr->failure_code = MY_JPEG_CANNOT_CREATE_X;
6808 sys_longjmp (mgr->setjmp_buffer, 1);
6810 #endif
6812 /* Allocate colors. When color quantization is used,
6813 mgr->cinfo.actual_number_of_colors has been set with the number of
6814 colors generated, and mgr->cinfo.colormap is a two-dimensional array
6815 of color indices in the range 0..mgr->cinfo.actual_number_of_colors.
6816 No more than 255 colors will be generated. */
6817 USE_SAFE_ALLOCA;
6819 if (mgr->cinfo.out_color_components > 2)
6820 ir = 0, ig = 1, ib = 2;
6821 else if (mgr->cinfo.out_color_components > 1)
6822 ir = 0, ig = 1, ib = 0;
6823 else
6824 ir = 0, ig = 0, ib = 0;
6826 #ifndef CAIRO
6827 /* Use the color table mechanism because it handles colors that
6828 cannot be allocated nicely. Such colors will be replaced with
6829 a default color, and we don't have to care about which colors
6830 can be freed safely, and which can't. */
6831 init_color_table ();
6832 SAFE_NALLOCA (colors, 1, mgr->cinfo.actual_number_of_colors);
6834 for (i = 0; i < mgr->cinfo.actual_number_of_colors; ++i)
6836 /* Multiply RGB values with 255 because X expects RGB values
6837 in the range 0..0xffff. */
6838 int r = mgr->cinfo.colormap[ir][i] << 8;
6839 int g = mgr->cinfo.colormap[ig][i] << 8;
6840 int b = mgr->cinfo.colormap[ib][i] << 8;
6841 colors[i] = lookup_rgb_color (f, r, g, b);
6843 #endif
6845 #ifdef COLOR_TABLE_SUPPORT
6846 /* Remember those colors actually allocated. */
6847 img->colors = colors_in_color_table (&img->ncolors);
6848 free_color_table ();
6849 #endif /* COLOR_TABLE_SUPPORT */
6852 /* Read pixels. */
6853 row_stride = width * mgr->cinfo.output_components;
6854 buffer = mgr->cinfo.mem->alloc_sarray ((j_common_ptr) &mgr->cinfo,
6855 JPOOL_IMAGE, row_stride, 1);
6856 #ifdef USE_CAIRO
6858 unsigned char *data = (unsigned char *) xmalloc (width*height*4);
6859 uint32_t *dataptr = (uint32_t *) data;
6860 int r, g, b;
6862 for (y = 0; y < height; ++y)
6864 jpeg_read_scanlines (&mgr->cinfo, buffer, 1);
6866 for (x = 0; x < width; ++x)
6868 i = buffer[0][x];
6869 r = mgr->cinfo.colormap[ir][i];
6870 g = mgr->cinfo.colormap[ig][i];
6871 b = mgr->cinfo.colormap[ib][i];
6872 *dataptr++ = (0xffu << 24) | (r << 16) | (g << 8) | b;
6876 create_cairo_image_surface (img, data, width, height);
6878 #else
6879 for (y = 0; y < height; ++y)
6881 jpeg_read_scanlines (&mgr->cinfo, buffer, 1);
6882 for (x = 0; x < mgr->cinfo.output_width; ++x)
6883 XPutPixel (ximg, x, y, colors[buffer[0][x]]);
6885 #endif
6887 /* Clean up. */
6888 jpeg_finish_decompress (&mgr->cinfo);
6889 jpeg_destroy_decompress (&mgr->cinfo);
6890 if (fp)
6891 fclose (fp);
6893 #ifndef USE_CAIRO
6894 /* Maybe fill in the background field while we have ximg handy. */
6895 if (NILP (image_spec_value (img->spec, QCbackground, NULL)))
6896 /* Casting avoids a GCC warning. */
6897 IMAGE_BACKGROUND (img, f, (XImagePtr_or_DC)ximg);
6899 /* Put ximg into the image. */
6900 image_put_x_image (f, img, ximg, 0);
6901 #endif
6902 SAFE_FREE ();
6903 return 1;
6906 static bool
6907 jpeg_load (struct frame *f, struct image *img)
6909 struct my_jpeg_error_mgr mgr;
6910 return jpeg_load_body (f, img, &mgr);
6913 #else /* HAVE_JPEG */
6915 #ifdef HAVE_NS
6916 static bool
6917 jpeg_load (struct frame *f, struct image *img)
6919 return ns_load_image (f, img,
6920 image_spec_value (img->spec, QCfile, NULL),
6921 image_spec_value (img->spec, QCdata, NULL));
6923 #endif /* HAVE_NS */
6925 #endif /* !HAVE_JPEG */
6929 /***********************************************************************
6930 TIFF
6931 ***********************************************************************/
6933 #if defined (HAVE_TIFF) || defined (HAVE_NS)
6935 static bool tiff_image_p (Lisp_Object object);
6936 static bool tiff_load (struct frame *f, struct image *img);
6938 /* Indices of image specification fields in tiff_format, below. */
6940 enum tiff_keyword_index
6942 TIFF_TYPE,
6943 TIFF_DATA,
6944 TIFF_FILE,
6945 TIFF_ASCENT,
6946 TIFF_MARGIN,
6947 TIFF_RELIEF,
6948 TIFF_ALGORITHM,
6949 TIFF_HEURISTIC_MASK,
6950 TIFF_MASK,
6951 TIFF_BACKGROUND,
6952 TIFF_INDEX,
6953 TIFF_LAST
6956 /* Vector of image_keyword structures describing the format
6957 of valid user-defined image specifications. */
6959 static const struct image_keyword tiff_format[TIFF_LAST] =
6961 {":type", IMAGE_SYMBOL_VALUE, 1},
6962 {":data", IMAGE_STRING_VALUE, 0},
6963 {":file", IMAGE_STRING_VALUE, 0},
6964 {":ascent", IMAGE_ASCENT_VALUE, 0},
6965 {":margin", IMAGE_NON_NEGATIVE_INTEGER_VALUE_OR_PAIR, 0},
6966 {":relief", IMAGE_INTEGER_VALUE, 0},
6967 {":conversions", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
6968 {":heuristic-mask", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
6969 {":mask", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
6970 {":background", IMAGE_STRING_OR_NIL_VALUE, 0},
6971 {":index", IMAGE_NON_NEGATIVE_INTEGER_VALUE, 0}
6974 #if defined HAVE_NTGUI && defined WINDOWSNT
6975 static bool init_tiff_functions (void);
6976 #else
6977 #define init_tiff_functions NULL
6978 #endif
6980 /* Structure describing the image type `tiff'. */
6982 static struct image_type tiff_type =
6984 SYMBOL_INDEX (Qtiff),
6985 tiff_image_p,
6986 tiff_load,
6987 x_clear_image,
6988 init_tiff_functions,
6989 NULL
6992 /* Return true if OBJECT is a valid TIFF image specification. */
6994 static bool
6995 tiff_image_p (Lisp_Object object)
6997 struct image_keyword fmt[TIFF_LAST];
6998 memcpy (fmt, tiff_format, sizeof fmt);
7000 if (!parse_image_spec (object, fmt, TIFF_LAST, Qtiff))
7001 return 0;
7003 /* Must specify either the :data or :file keyword. */
7004 return fmt[TIFF_FILE].count + fmt[TIFF_DATA].count == 1;
7007 #endif /* HAVE_TIFF || HAVE_NS */
7009 #ifdef HAVE_TIFF
7011 # include <tiffio.h>
7013 # ifdef WINDOWSNT
7015 /* TIFF library details. */
7016 DEF_DLL_FN (TIFFErrorHandler, TIFFSetErrorHandler, (TIFFErrorHandler));
7017 DEF_DLL_FN (TIFFErrorHandler, TIFFSetWarningHandler, (TIFFErrorHandler));
7018 DEF_DLL_FN (TIFF *, TIFFOpen, (const char *, const char *));
7019 DEF_DLL_FN (TIFF *, TIFFClientOpen,
7020 (const char *, const char *, thandle_t, TIFFReadWriteProc,
7021 TIFFReadWriteProc, TIFFSeekProc, TIFFCloseProc, TIFFSizeProc,
7022 TIFFMapFileProc, TIFFUnmapFileProc));
7023 DEF_DLL_FN (int, TIFFGetField, (TIFF *, ttag_t, ...));
7024 DEF_DLL_FN (int, TIFFReadRGBAImage, (TIFF *, uint32, uint32, uint32 *, int));
7025 DEF_DLL_FN (void, TIFFClose, (TIFF *));
7026 DEF_DLL_FN (int, TIFFSetDirectory, (TIFF *, tdir_t));
7028 static bool
7029 init_tiff_functions (void)
7031 HMODULE library;
7033 if (!(library = w32_delayed_load (Qtiff)))
7034 return 0;
7036 LOAD_DLL_FN (library, TIFFSetErrorHandler);
7037 LOAD_DLL_FN (library, TIFFSetWarningHandler);
7038 LOAD_DLL_FN (library, TIFFOpen);
7039 LOAD_DLL_FN (library, TIFFClientOpen);
7040 LOAD_DLL_FN (library, TIFFGetField);
7041 LOAD_DLL_FN (library, TIFFReadRGBAImage);
7042 LOAD_DLL_FN (library, TIFFClose);
7043 LOAD_DLL_FN (library, TIFFSetDirectory);
7044 return 1;
7047 # undef TIFFClientOpen
7048 # undef TIFFClose
7049 # undef TIFFGetField
7050 # undef TIFFOpen
7051 # undef TIFFReadRGBAImage
7052 # undef TIFFSetDirectory
7053 # undef TIFFSetErrorHandler
7054 # undef TIFFSetWarningHandler
7056 # define TIFFClientOpen fn_TIFFClientOpen
7057 # define TIFFClose fn_TIFFClose
7058 # define TIFFGetField fn_TIFFGetField
7059 # define TIFFOpen fn_TIFFOpen
7060 # define TIFFReadRGBAImage fn_TIFFReadRGBAImage
7061 # define TIFFSetDirectory fn_TIFFSetDirectory
7062 # define TIFFSetErrorHandler fn_TIFFSetErrorHandler
7063 # define TIFFSetWarningHandler fn_TIFFSetWarningHandler
7065 # endif /* WINDOWSNT */
7068 /* Reading from a memory buffer for TIFF images Based on the PNG
7069 memory source, but we have to provide a lot of extra functions.
7070 Blah.
7072 We really only need to implement read and seek, but I am not
7073 convinced that the TIFF library is smart enough not to destroy
7074 itself if we only hand it the function pointers we need to
7075 override. */
7077 typedef struct
7079 unsigned char *bytes;
7080 ptrdiff_t len;
7081 ptrdiff_t index;
7083 tiff_memory_source;
7085 static tsize_t
7086 tiff_read_from_memory (thandle_t data, tdata_t buf, tsize_t size)
7088 tiff_memory_source *src = (tiff_memory_source *) data;
7090 size = min (size, src->len - src->index);
7091 memcpy (buf, src->bytes + src->index, size);
7092 src->index += size;
7093 return size;
7096 static tsize_t
7097 tiff_write_from_memory (thandle_t data, tdata_t buf, tsize_t size)
7099 return -1;
7102 static toff_t
7103 tiff_seek_in_memory (thandle_t data, toff_t off, int whence)
7105 tiff_memory_source *src = (tiff_memory_source *) data;
7106 ptrdiff_t idx;
7108 switch (whence)
7110 case SEEK_SET: /* Go from beginning of source. */
7111 idx = off;
7112 break;
7114 case SEEK_END: /* Go from end of source. */
7115 idx = src->len + off;
7116 break;
7118 case SEEK_CUR: /* Go from current position. */
7119 idx = src->index + off;
7120 break;
7122 default: /* Invalid `whence'. */
7123 return -1;
7126 if (idx > src->len || idx < 0)
7127 return -1;
7129 src->index = idx;
7130 return src->index;
7133 static int
7134 tiff_close_memory (thandle_t data)
7136 /* NOOP */
7137 return 0;
7140 static int
7141 tiff_mmap_memory (thandle_t data, tdata_t *pbase, toff_t *psize)
7143 /* It is already _IN_ memory. */
7144 return 0;
7147 static void
7148 tiff_unmap_memory (thandle_t data, tdata_t base, toff_t size)
7150 /* We don't need to do this. */
7153 static toff_t
7154 tiff_size_of_memory (thandle_t data)
7156 return ((tiff_memory_source *) data)->len;
7159 /* GCC 3.x on x86 Windows targets has a bug that triggers an internal
7160 compiler error compiling tiff_handler, see Bugzilla bug #17406
7161 (https://gcc.gnu.org/bugzilla/show_bug.cgi?id=17406). Declaring
7162 this function as external works around that problem. */
7163 # if defined (__MINGW32__) && __GNUC__ == 3
7164 # define MINGW_STATIC
7165 # else
7166 # define MINGW_STATIC static
7167 # endif
7169 MINGW_STATIC void
7170 tiff_handler (const char *, const char *, const char *, va_list)
7171 ATTRIBUTE_FORMAT_PRINTF (3, 0);
7172 MINGW_STATIC void
7173 tiff_handler (const char *log_format, const char *title,
7174 const char *format, va_list ap)
7176 /* doprnt is not suitable here, as TIFF handlers are called from
7177 libtiff and are passed arbitrary printf directives. Instead, use
7178 vsnprintf, taking care to be portable to nonstandard environments
7179 where vsnprintf returns -1 on buffer overflow. Since it's just a
7180 log entry, it's OK to truncate it. */
7181 char buf[4000];
7182 int len = vsnprintf (buf, sizeof buf, format, ap);
7183 add_to_log (log_format, build_string (title),
7184 make_string (buf, max (0, min (len, sizeof buf - 1))));
7186 # undef MINGW_STATIC
7188 static void tiff_error_handler (const char *, const char *, va_list)
7189 ATTRIBUTE_FORMAT_PRINTF (2, 0);
7190 static void
7191 tiff_error_handler (const char *title, const char *format, va_list ap)
7193 tiff_handler ("TIFF error: %s %s", title, format, ap);
7197 static void tiff_warning_handler (const char *, const char *, va_list)
7198 ATTRIBUTE_FORMAT_PRINTF (2, 0);
7199 static void
7200 tiff_warning_handler (const char *title, const char *format, va_list ap)
7202 tiff_handler ("TIFF warning: %s %s", title, format, ap);
7206 /* Load TIFF image IMG for use on frame F. Value is true if
7207 successful. */
7209 static bool
7210 tiff_load (struct frame *f, struct image *img)
7212 Lisp_Object specified_file;
7213 Lisp_Object specified_data;
7214 TIFF *tiff;
7215 int width, height, x, y, count;
7216 uint32 *buf;
7217 int rc;
7218 XImagePtr ximg;
7219 tiff_memory_source memsrc;
7220 Lisp_Object image;
7222 specified_file = image_spec_value (img->spec, QCfile, NULL);
7223 specified_data = image_spec_value (img->spec, QCdata, NULL);
7225 TIFFSetErrorHandler ((TIFFErrorHandler) tiff_error_handler);
7226 TIFFSetWarningHandler ((TIFFErrorHandler) tiff_warning_handler);
7228 if (NILP (specified_data))
7230 /* Read from a file */
7231 Lisp_Object file = x_find_image_file (specified_file);
7232 if (!STRINGP (file))
7234 image_error ("Cannot find image file `%s'", specified_file);
7235 return 0;
7238 Lisp_Object encoded_file = ENCODE_FILE (file);
7239 # ifdef WINDOWSNT
7240 encoded_file = ansi_encode_filename (encoded_file);
7241 # endif
7243 /* Try to open the image file. */
7244 tiff = TIFFOpen (SSDATA (encoded_file), "r");
7245 if (tiff == NULL)
7247 image_error ("Cannot open `%s'", file);
7248 return 0;
7251 else
7253 if (!STRINGP (specified_data))
7255 image_error ("Invalid image data `%s'", specified_data);
7256 return 0;
7259 /* Memory source! */
7260 memsrc.bytes = SDATA (specified_data);
7261 memsrc.len = SBYTES (specified_data);
7262 memsrc.index = 0;
7264 tiff = TIFFClientOpen ("memory_source", "r", (thandle_t)&memsrc,
7265 tiff_read_from_memory,
7266 tiff_write_from_memory,
7267 tiff_seek_in_memory,
7268 tiff_close_memory,
7269 tiff_size_of_memory,
7270 tiff_mmap_memory,
7271 tiff_unmap_memory);
7273 if (!tiff)
7275 image_error ("Cannot open memory source for `%s'", img->spec);
7276 return 0;
7280 image = image_spec_value (img->spec, QCindex, NULL);
7281 if (INTEGERP (image))
7283 EMACS_INT ino = XFASTINT (image);
7284 if (! (TYPE_MINIMUM (tdir_t) <= ino && ino <= TYPE_MAXIMUM (tdir_t)
7285 && TIFFSetDirectory (tiff, ino)))
7287 image_error ("Invalid image number `%s' in image `%s'",
7288 image, img->spec);
7289 TIFFClose (tiff);
7290 return 0;
7294 /* Get width and height of the image, and allocate a raster buffer
7295 of width x height 32-bit values. */
7296 TIFFGetField (tiff, TIFFTAG_IMAGEWIDTH, &width);
7297 TIFFGetField (tiff, TIFFTAG_IMAGELENGTH, &height);
7299 if (!check_image_size (f, width, height))
7301 image_size_error ();
7302 TIFFClose (tiff);
7303 return 0;
7306 /* Create the X image and pixmap. */
7307 if (! (height <= min (PTRDIFF_MAX, SIZE_MAX) / sizeof *buf / width
7308 && image_create_x_image_and_pixmap (f, img, width, height, 0,
7309 &ximg, 0)))
7311 TIFFClose (tiff);
7312 return 0;
7315 buf = xmalloc (sizeof *buf * width * height);
7317 rc = TIFFReadRGBAImage (tiff, width, height, buf, 0);
7319 /* Count the number of images in the file. */
7320 for (count = 1; TIFFSetDirectory (tiff, count); count++)
7321 continue;
7323 if (count > 1)
7324 img->lisp_data = Fcons (Qcount,
7325 Fcons (make_number (count),
7326 img->lisp_data));
7328 TIFFClose (tiff);
7329 if (!rc)
7331 image_error ("Error reading TIFF image `%s'", img->spec);
7332 xfree (buf);
7333 return 0;
7336 #ifdef USE_CAIRO
7338 unsigned char *data = (unsigned char *) xmalloc (width*height*4);
7339 uint32_t *dataptr = (uint32_t *) data;
7341 for (y = 0; y < height; ++y)
7343 uint32 *row = buf + (height - 1 - y) * width;
7344 for (x = 0; x < width; ++x)
7346 uint32 abgr = row[x];
7347 int r = TIFFGetR (abgr);
7348 int g = TIFFGetG (abgr);
7349 int b = TIFFGetB (abgr);
7350 int a = TIFFGetA (abgr);
7351 *dataptr++ = (a << 24) | (r << 16) | (g << 8) | b;
7355 create_cairo_image_surface (img, data, width, height);
7357 #else
7358 /* Initialize the color table. */
7359 init_color_table ();
7361 /* Process the pixel raster. Origin is in the lower-left corner. */
7362 for (y = 0; y < height; ++y)
7364 uint32 *row = buf + y * width;
7366 for (x = 0; x < width; ++x)
7368 uint32 abgr = row[x];
7369 int r = TIFFGetR (abgr) << 8;
7370 int g = TIFFGetG (abgr) << 8;
7371 int b = TIFFGetB (abgr) << 8;
7372 XPutPixel (ximg, x, height - 1 - y, lookup_rgb_color (f, r, g, b));
7376 # ifdef COLOR_TABLE_SUPPORT
7377 /* Remember the colors allocated for the image. Free the color table. */
7378 img->colors = colors_in_color_table (&img->ncolors);
7379 free_color_table ();
7380 # endif /* COLOR_TABLE_SUPPORT */
7382 img->width = width;
7383 img->height = height;
7385 /* Maybe fill in the background field while we have ximg handy. */
7386 if (NILP (image_spec_value (img->spec, QCbackground, NULL)))
7387 /* Casting avoids a GCC warning on W32. */
7388 IMAGE_BACKGROUND (img, f, (XImagePtr_or_DC)ximg);
7390 /* Put ximg into the image. */
7391 image_put_x_image (f, img, ximg, 0);
7393 #endif /* ! USE_CAIRO */
7395 xfree (buf);
7396 return 1;
7399 #elif defined HAVE_NS
7401 static bool
7402 tiff_load (struct frame *f, struct image *img)
7404 return ns_load_image (f, img,
7405 image_spec_value (img->spec, QCfile, NULL),
7406 image_spec_value (img->spec, QCdata, NULL));
7409 #endif
7413 /***********************************************************************
7415 ***********************************************************************/
7417 #if defined (HAVE_GIF) || defined (HAVE_NS)
7419 static bool gif_image_p (Lisp_Object object);
7420 static bool gif_load (struct frame *f, struct image *img);
7421 static void gif_clear_image (struct frame *f, struct image *img);
7423 /* Indices of image specification fields in gif_format, below. */
7425 enum gif_keyword_index
7427 GIF_TYPE,
7428 GIF_DATA,
7429 GIF_FILE,
7430 GIF_ASCENT,
7431 GIF_MARGIN,
7432 GIF_RELIEF,
7433 GIF_ALGORITHM,
7434 GIF_HEURISTIC_MASK,
7435 GIF_MASK,
7436 GIF_IMAGE,
7437 GIF_BACKGROUND,
7438 GIF_LAST
7441 /* Vector of image_keyword structures describing the format
7442 of valid user-defined image specifications. */
7444 static const struct image_keyword gif_format[GIF_LAST] =
7446 {":type", IMAGE_SYMBOL_VALUE, 1},
7447 {":data", IMAGE_STRING_VALUE, 0},
7448 {":file", IMAGE_STRING_VALUE, 0},
7449 {":ascent", IMAGE_ASCENT_VALUE, 0},
7450 {":margin", IMAGE_NON_NEGATIVE_INTEGER_VALUE_OR_PAIR, 0},
7451 {":relief", IMAGE_INTEGER_VALUE, 0},
7452 {":conversion", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
7453 {":heuristic-mask", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
7454 {":mask", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
7455 {":index", IMAGE_NON_NEGATIVE_INTEGER_VALUE, 0},
7456 {":background", IMAGE_STRING_OR_NIL_VALUE, 0}
7459 #if defined HAVE_NTGUI && defined WINDOWSNT
7460 static bool init_gif_functions (void);
7461 #else
7462 #define init_gif_functions NULL
7463 #endif
7465 /* Structure describing the image type `gif'. */
7467 static struct image_type gif_type =
7469 SYMBOL_INDEX (Qgif),
7470 gif_image_p,
7471 gif_load,
7472 gif_clear_image,
7473 init_gif_functions,
7474 NULL
7477 /* Free X resources of GIF image IMG which is used on frame F. */
7479 static void
7480 gif_clear_image (struct frame *f, struct image *img)
7482 img->lisp_data = Qnil;
7483 x_clear_image (f, img);
7486 /* Return true if OBJECT is a valid GIF image specification. */
7488 static bool
7489 gif_image_p (Lisp_Object object)
7491 struct image_keyword fmt[GIF_LAST];
7492 memcpy (fmt, gif_format, sizeof fmt);
7494 if (!parse_image_spec (object, fmt, GIF_LAST, Qgif))
7495 return 0;
7497 /* Must specify either the :data or :file keyword. */
7498 return fmt[GIF_FILE].count + fmt[GIF_DATA].count == 1;
7501 #endif /* HAVE_GIF */
7503 #ifdef HAVE_GIF
7505 # ifdef HAVE_NTGUI
7507 /* winuser.h might define DrawText to DrawTextA or DrawTextW.
7508 Undefine before redefining to avoid a preprocessor warning. */
7509 # ifdef DrawText
7510 # undef DrawText
7511 # endif
7512 /* avoid conflict with QuickdrawText.h */
7513 # define DrawText gif_DrawText
7514 # include <gif_lib.h>
7515 /* The bogus ifdef below, which is always true, is to avoid a compiler
7516 warning about DrawText being unused. */
7517 # ifdef DrawText
7518 # undef DrawText
7519 # endif
7521 /* Giflib before 5.0 didn't define these macros (used only if HAVE_NTGUI). */
7522 # ifndef GIFLIB_MINOR
7523 # define GIFLIB_MINOR 0
7524 # endif
7525 # ifndef GIFLIB_RELEASE
7526 # define GIFLIB_RELEASE 0
7527 # endif
7529 # else /* HAVE_NTGUI */
7531 # include <gif_lib.h>
7533 # endif /* HAVE_NTGUI */
7535 /* Giflib before 5.0 didn't define these macros. */
7536 # ifndef GIFLIB_MAJOR
7537 # define GIFLIB_MAJOR 4
7538 # endif
7540 /* GifErrorString is declared to return char const * when GIFLIB_MAJOR
7541 and GIFLIB_MINOR indicate 5.1 or later. Do not bother using it in
7542 earlier releases, where either it returns char * or GIFLIB_MINOR
7543 may be incorrect. */
7544 # define HAVE_GIFERRORSTRING (5 < GIFLIB_MAJOR + (1 <= GIFLIB_MINOR))
7546 # ifdef WINDOWSNT
7548 /* GIF library details. */
7549 # if GIFLIB_MAJOR + (GIFLIB_MINOR >= 1) > 5
7550 DEF_DLL_FN (int, DGifCloseFile, (GifFileType *, int *));
7551 # else
7552 DEF_DLL_FN (int, DGifCloseFile, (GifFileType *));
7553 # endif
7554 DEF_DLL_FN (int, DGifSlurp, (GifFileType *));
7555 # if GIFLIB_MAJOR < 5
7556 DEF_DLL_FN (GifFileType *, DGifOpen, (void *, InputFunc));
7557 DEF_DLL_FN (GifFileType *, DGifOpenFileName, (const char *));
7558 # else
7559 DEF_DLL_FN (GifFileType *, DGifOpen, (void *, InputFunc, int *));
7560 DEF_DLL_FN (GifFileType *, DGifOpenFileName, (const char *, int *));
7561 # endif
7562 # if HAVE_GIFERRORSTRING
7563 DEF_DLL_FN (char const *, GifErrorString, (int));
7564 # endif
7566 static bool
7567 init_gif_functions (void)
7569 HMODULE library;
7571 if (!(library = w32_delayed_load (Qgif)))
7572 return 0;
7574 LOAD_DLL_FN (library, DGifCloseFile);
7575 LOAD_DLL_FN (library, DGifSlurp);
7576 LOAD_DLL_FN (library, DGifOpen);
7577 LOAD_DLL_FN (library, DGifOpenFileName);
7578 # if HAVE_GIFERRORSTRING
7579 LOAD_DLL_FN (library, GifErrorString);
7580 # endif
7581 return 1;
7584 # undef DGifCloseFile
7585 # undef DGifOpen
7586 # undef DGifOpenFileName
7587 # undef DGifSlurp
7588 # undef GifErrorString
7590 # define DGifCloseFile fn_DGifCloseFile
7591 # define DGifOpen fn_DGifOpen
7592 # define DGifOpenFileName fn_DGifOpenFileName
7593 # define DGifSlurp fn_DGifSlurp
7594 # define GifErrorString fn_GifErrorString
7596 # endif /* WINDOWSNT */
7598 /* Reading a GIF image from memory
7599 Based on the PNG memory stuff to a certain extent. */
7601 typedef struct
7603 unsigned char *bytes;
7604 ptrdiff_t len;
7605 ptrdiff_t index;
7607 gif_memory_source;
7609 /* Make the current memory source available to gif_read_from_memory.
7610 It's done this way because not all versions of libungif support
7611 a UserData field in the GifFileType structure. */
7612 static gif_memory_source *current_gif_memory_src;
7614 static int
7615 gif_read_from_memory (GifFileType *file, GifByteType *buf, int len)
7617 gif_memory_source *src = current_gif_memory_src;
7619 if (len > src->len - src->index)
7620 return -1;
7622 memcpy (buf, src->bytes + src->index, len);
7623 src->index += len;
7624 return len;
7627 static int
7628 gif_close (GifFileType *gif, int *err)
7630 int retval;
7632 #if GIFLIB_MAJOR + (GIFLIB_MINOR >= 1) > 5
7633 retval = DGifCloseFile (gif, err);
7634 #else
7635 retval = DGifCloseFile (gif);
7636 #if GIFLIB_MAJOR >= 5
7637 if (err)
7638 *err = gif->Error;
7639 #endif
7640 #endif
7641 return retval;
7644 /* Load GIF image IMG for use on frame F. Value is true if
7645 successful. */
7647 static const int interlace_start[] = {0, 4, 2, 1};
7648 static const int interlace_increment[] = {8, 8, 4, 2};
7650 #define GIF_LOCAL_DESCRIPTOR_EXTENSION 249
7652 static bool
7653 gif_load (struct frame *f, struct image *img)
7655 int rc, width, height, x, y, i, j;
7656 ColorMapObject *gif_color_map;
7657 GifFileType *gif;
7658 gif_memory_source memsrc;
7659 Lisp_Object specified_bg = image_spec_value (img->spec, QCbackground, NULL);
7660 Lisp_Object specified_file = image_spec_value (img->spec, QCfile, NULL);
7661 Lisp_Object specified_data = image_spec_value (img->spec, QCdata, NULL);
7662 EMACS_INT idx;
7663 int gif_err;
7665 if (NILP (specified_data))
7667 Lisp_Object file = x_find_image_file (specified_file);
7668 if (!STRINGP (file))
7670 image_error ("Cannot find image file `%s'", specified_file);
7671 return 0;
7674 Lisp_Object encoded_file = ENCODE_FILE (file);
7675 #ifdef WINDOWSNT
7676 encoded_file = ansi_encode_filename (encoded_file);
7677 #endif
7679 /* Open the GIF file. */
7680 #if GIFLIB_MAJOR < 5
7681 gif = DGifOpenFileName (SSDATA (encoded_file));
7682 #else
7683 gif = DGifOpenFileName (SSDATA (encoded_file), &gif_err);
7684 #endif
7685 if (gif == NULL)
7687 #if HAVE_GIFERRORSTRING
7688 image_error ("Cannot open `%s': %s",
7689 file, build_string (GifErrorString (gif_err)));
7690 #else
7691 image_error ("Cannot open `%s'", file);
7692 #endif
7693 return 0;
7696 else
7698 if (!STRINGP (specified_data))
7700 image_error ("Invalid image data `%s'", specified_data);
7701 return 0;
7704 /* Read from memory! */
7705 current_gif_memory_src = &memsrc;
7706 memsrc.bytes = SDATA (specified_data);
7707 memsrc.len = SBYTES (specified_data);
7708 memsrc.index = 0;
7710 #if GIFLIB_MAJOR < 5
7711 gif = DGifOpen (&memsrc, gif_read_from_memory);
7712 #else
7713 gif = DGifOpen (&memsrc, gif_read_from_memory, &gif_err);
7714 #endif
7715 if (!gif)
7717 #if HAVE_GIFERRORSTRING
7718 image_error ("Cannot open memory source `%s': %s",
7719 img->spec, build_string (GifErrorString (gif_err)));
7720 #else
7721 image_error ("Cannot open memory source `%s'", img->spec);
7722 #endif
7723 return 0;
7727 /* Before reading entire contents, check the declared image size. */
7728 if (!check_image_size (f, gif->SWidth, gif->SHeight))
7730 image_size_error ();
7731 gif_close (gif, NULL);
7732 return 0;
7735 /* Read entire contents. */
7736 rc = DGifSlurp (gif);
7737 if (rc == GIF_ERROR || gif->ImageCount <= 0)
7739 image_error ("Error reading `%s'", img->spec);
7740 gif_close (gif, NULL);
7741 return 0;
7744 /* Which sub-image are we to display? */
7746 Lisp_Object image_number = image_spec_value (img->spec, QCindex, NULL);
7747 idx = INTEGERP (image_number) ? XFASTINT (image_number) : 0;
7748 if (idx < 0 || idx >= gif->ImageCount)
7750 image_error ("Invalid image number `%s' in image `%s'",
7751 image_number, img->spec);
7752 gif_close (gif, NULL);
7753 return 0;
7757 width = img->width = gif->SWidth;
7758 height = img->height = gif->SHeight;
7760 img->corners[TOP_CORNER] = gif->SavedImages[0].ImageDesc.Top;
7761 img->corners[LEFT_CORNER] = gif->SavedImages[0].ImageDesc.Left;
7762 img->corners[BOT_CORNER]
7763 = img->corners[TOP_CORNER] + gif->SavedImages[0].ImageDesc.Height;
7764 img->corners[RIGHT_CORNER]
7765 = img->corners[LEFT_CORNER] + gif->SavedImages[0].ImageDesc.Width;
7767 if (!check_image_size (f, width, height))
7769 image_size_error ();
7770 gif_close (gif, NULL);
7771 return 0;
7774 /* Check that the selected subimages fit. It's not clear whether
7775 the GIF spec requires this, but Emacs can crash if they don't fit. */
7776 for (j = 0; j <= idx; ++j)
7778 struct SavedImage *subimage = gif->SavedImages + j;
7779 int subimg_width = subimage->ImageDesc.Width;
7780 int subimg_height = subimage->ImageDesc.Height;
7781 int subimg_top = subimage->ImageDesc.Top;
7782 int subimg_left = subimage->ImageDesc.Left;
7783 if (! (subimg_width >= 0 && subimg_height >= 0
7784 && 0 <= subimg_top && subimg_top <= height - subimg_height
7785 && 0 <= subimg_left && subimg_left <= width - subimg_width))
7787 image_error ("Subimage does not fit in image");
7788 gif_close (gif, NULL);
7789 return 0;
7793 #ifdef USE_CAIRO
7794 /* xzalloc so data is zero => transparent */
7795 void *data = xzalloc (width * height * 4);
7796 uint32_t *data32 = data;
7797 if (STRINGP (specified_bg))
7799 XColor color;
7800 if (x_defined_color (f, SSDATA (specified_bg), &color, 0))
7802 uint32_t *dataptr = data32;
7803 int r = color.red/256;
7804 int g = color.green/256;
7805 int b = color.blue/256;
7807 for (y = 0; y < height; ++y)
7808 for (x = 0; x < width; ++x)
7809 *dataptr++ = (0xffu << 24) | (r << 16) | (g << 8) | b;
7812 #else
7813 /* Create the X image and pixmap. */
7814 XImagePtr ximg;
7815 if (!image_create_x_image_and_pixmap (f, img, width, height, 0, &ximg, 0))
7817 gif_close (gif, NULL);
7818 return 0;
7821 /* Clear the part of the screen image not covered by the image.
7822 Full animated GIF support requires more here (see the gif89 spec,
7823 disposal methods). Let's simply assume that the part not covered
7824 by a sub-image is in the frame's background color. */
7825 for (y = 0; y < img->corners[TOP_CORNER]; ++y)
7826 for (x = 0; x < width; ++x)
7827 XPutPixel (ximg, x, y, FRAME_BACKGROUND_PIXEL (f));
7829 for (y = img->corners[BOT_CORNER]; y < height; ++y)
7830 for (x = 0; x < width; ++x)
7831 XPutPixel (ximg, x, y, FRAME_BACKGROUND_PIXEL (f));
7833 for (y = img->corners[TOP_CORNER]; y < img->corners[BOT_CORNER]; ++y)
7835 for (x = 0; x < img->corners[LEFT_CORNER]; ++x)
7836 XPutPixel (ximg, x, y, FRAME_BACKGROUND_PIXEL (f));
7837 for (x = img->corners[RIGHT_CORNER]; x < width; ++x)
7838 XPutPixel (ximg, x, y, FRAME_BACKGROUND_PIXEL (f));
7840 #endif
7842 /* Read the GIF image into the X image. */
7844 /* FIXME: With the current implementation, loading an animated gif
7845 is quadratic in the number of animation frames, since each frame
7846 is a separate struct image. We must provide a way for a single
7847 gif_load call to construct and save all animation frames. */
7849 init_color_table ();
7851 #ifndef USE_CAIRO
7852 unsigned long bgcolor UNINIT;
7853 if (STRINGP (specified_bg))
7854 bgcolor = x_alloc_image_color (f, img, specified_bg,
7855 FRAME_BACKGROUND_PIXEL (f));
7856 #endif
7858 for (j = 0; j <= idx; ++j)
7860 /* We use a local variable `raster' here because RasterBits is a
7861 char *, which invites problems with bytes >= 0x80. */
7862 struct SavedImage *subimage = gif->SavedImages + j;
7863 unsigned char *raster = (unsigned char *) subimage->RasterBits;
7864 int transparency_color_index = -1;
7865 int disposal = 0;
7866 int subimg_width = subimage->ImageDesc.Width;
7867 int subimg_height = subimage->ImageDesc.Height;
7868 int subimg_top = subimage->ImageDesc.Top;
7869 int subimg_left = subimage->ImageDesc.Left;
7871 /* Find the Graphic Control Extension block for this sub-image.
7872 Extract the disposal method and transparency color. */
7873 for (i = 0; i < subimage->ExtensionBlockCount; i++)
7875 ExtensionBlock *extblock = subimage->ExtensionBlocks + i;
7877 if ((extblock->Function == GIF_LOCAL_DESCRIPTOR_EXTENSION)
7878 && extblock->ByteCount == 4
7879 && extblock->Bytes[0] & 1)
7881 /* From gif89a spec: 1 = "keep in place", 2 = "restore
7882 to background". Treat any other value like 2. */
7883 disposal = (extblock->Bytes[0] >> 2) & 7;
7884 transparency_color_index = (unsigned char) extblock->Bytes[3];
7885 break;
7889 /* We can't "keep in place" the first subimage. */
7890 if (j == 0)
7891 disposal = 2;
7893 /* For disposal == 0, the spec says "No disposal specified. The
7894 decoder is not required to take any action." In practice, it
7895 seems we need to treat this like "keep in place", see e.g.
7896 http://upload.wikimedia.org/wikipedia/commons/3/37/Clock.gif */
7897 if (disposal == 0)
7898 disposal = 1;
7900 gif_color_map = subimage->ImageDesc.ColorMap;
7901 if (!gif_color_map)
7902 gif_color_map = gif->SColorMap;
7904 #ifndef USE_CAIRO
7905 /* Allocate subimage colors. */
7906 unsigned long pixel_colors[256] = { 0, };
7908 if (gif_color_map)
7909 for (i = 0; i < gif_color_map->ColorCount; ++i)
7911 if (transparency_color_index == i)
7912 pixel_colors[i] = STRINGP (specified_bg)
7913 ? bgcolor : FRAME_BACKGROUND_PIXEL (f);
7914 else
7916 int r = gif_color_map->Colors[i].Red << 8;
7917 int g = gif_color_map->Colors[i].Green << 8;
7918 int b = gif_color_map->Colors[i].Blue << 8;
7919 pixel_colors[i] = lookup_rgb_color (f, r, g, b);
7922 #endif
7924 /* Apply the pixel values. */
7925 if (GIFLIB_MAJOR < 5 && gif->SavedImages[j].ImageDesc.Interlace)
7927 int row, pass;
7929 for (y = 0, row = interlace_start[0], pass = 0;
7930 y < subimg_height;
7931 y++, row += interlace_increment[pass])
7933 while (subimg_height <= row)
7934 row = interlace_start[++pass];
7936 for (x = 0; x < subimg_width; x++)
7938 int c = raster[y * subimg_width + x];
7939 if (transparency_color_index != c || disposal != 1)
7941 #ifdef USE_CAIRO
7942 uint32_t *dataptr =
7943 (data32 + ((row + subimg_top) * subimg_width
7944 + x + subimg_left));
7945 int r = gif_color_map->Colors[c].Red;
7946 int g = gif_color_map->Colors[c].Green;
7947 int b = gif_color_map->Colors[c].Blue;
7949 if (transparency_color_index != c)
7950 *dataptr = (0xffu << 24) | (r << 16) | (g << 8) | b;
7951 #else
7952 XPutPixel (ximg, x + subimg_left, row + subimg_top,
7953 pixel_colors[c]);
7954 #endif
7959 else
7961 for (y = 0; y < subimg_height; ++y)
7962 for (x = 0; x < subimg_width; ++x)
7964 int c = raster[y * subimg_width + x];
7965 if (transparency_color_index != c || disposal != 1)
7967 #ifdef USE_CAIRO
7968 uint32_t *dataptr =
7969 (data32 + ((y + subimg_top) * subimg_width
7970 + x + subimg_left));
7971 int r = gif_color_map->Colors[c].Red;
7972 int g = gif_color_map->Colors[c].Green;
7973 int b = gif_color_map->Colors[c].Blue;
7974 if (transparency_color_index != c)
7975 *dataptr = (0xffu << 24) | (r << 16) | (g << 8) | b;
7976 #else
7977 XPutPixel (ximg, x + subimg_left, y + subimg_top,
7978 pixel_colors[c]);
7979 #endif
7985 #ifdef COLOR_TABLE_SUPPORT
7986 img->colors = colors_in_color_table (&img->ncolors);
7987 free_color_table ();
7988 #endif /* COLOR_TABLE_SUPPORT */
7990 /* Save GIF image extension data for `image-metadata'.
7991 Format is (count IMAGES extension-data (FUNCTION "BYTES" ...)). */
7992 img->lisp_data = Qnil;
7993 if (gif->SavedImages[idx].ExtensionBlockCount > 0)
7995 int delay = 0;
7996 ExtensionBlock *ext = gif->SavedImages[idx].ExtensionBlocks;
7997 for (i = 0; i < gif->SavedImages[idx].ExtensionBlockCount; i++, ext++)
7998 /* Append (... FUNCTION "BYTES") */
8000 img->lisp_data
8001 = Fcons (make_number (ext->Function),
8002 Fcons (make_unibyte_string ((char *) ext->Bytes,
8003 ext->ByteCount),
8004 img->lisp_data));
8005 if (ext->Function == GIF_LOCAL_DESCRIPTOR_EXTENSION
8006 && ext->ByteCount == 4)
8008 delay = ext->Bytes[2] << CHAR_BIT;
8009 delay |= ext->Bytes[1];
8012 img->lisp_data = list2 (Qextension_data, img->lisp_data);
8013 if (delay)
8014 img->lisp_data
8015 = Fcons (Qdelay,
8016 Fcons (make_float (delay / 100.0),
8017 img->lisp_data));
8020 if (gif->ImageCount > 1)
8021 img->lisp_data = Fcons (Qcount,
8022 Fcons (make_number (gif->ImageCount),
8023 img->lisp_data));
8025 if (gif_close (gif, &gif_err) == GIF_ERROR)
8027 #if HAVE_GIFERRORSTRING
8028 char const *error_text = GifErrorString (gif_err);
8030 if (error_text)
8031 image_error ("Error closing `%s': %s",
8032 img->spec, build_string (error_text));
8033 #else
8034 image_error ("Error closing `%s'", img->spec);
8035 #endif
8038 #ifdef USE_CAIRO
8039 create_cairo_image_surface (img, data, width, height);
8040 #else
8041 /* Maybe fill in the background field while we have ximg handy. */
8042 if (NILP (image_spec_value (img->spec, QCbackground, NULL)))
8043 /* Casting avoids a GCC warning. */
8044 IMAGE_BACKGROUND (img, f, (XImagePtr_or_DC)ximg);
8046 /* Put ximg into the image. */
8047 image_put_x_image (f, img, ximg, 0);
8048 #endif
8050 return 1;
8053 #else /* !HAVE_GIF */
8055 #ifdef HAVE_NS
8056 static bool
8057 gif_load (struct frame *f, struct image *img)
8059 return ns_load_image (f, img,
8060 image_spec_value (img->spec, QCfile, NULL),
8061 image_spec_value (img->spec, QCdata, NULL));
8063 #endif /* HAVE_NS */
8065 #endif /* HAVE_GIF */
8068 #ifdef HAVE_IMAGEMAGICK
8070 /***********************************************************************
8071 ImageMagick
8072 ***********************************************************************/
8074 /* Scale an image size by returning SIZE / DIVISOR * MULTIPLIER,
8075 safely rounded and clipped to int range. */
8077 static int
8078 scale_image_size (int size, size_t divisor, size_t multiplier)
8080 if (divisor != 0)
8082 double s = size;
8083 double scaled = s * multiplier / divisor + 0.5;
8084 if (scaled < INT_MAX)
8085 return scaled;
8087 return INT_MAX;
8090 /* Compute the desired size of an image with native size WIDTH x HEIGHT.
8091 Use SPEC to deduce the size. Store the desired size into
8092 *D_WIDTH x *D_HEIGHT. Store -1 x -1 if the native size is OK. */
8093 static void
8094 compute_image_size (size_t width, size_t height,
8095 Lisp_Object spec,
8096 int *d_width, int *d_height)
8098 Lisp_Object value;
8099 int desired_width = -1, desired_height = -1, max_width = -1, max_height = -1;
8100 double scale = 1;
8102 value = image_spec_value (spec, QCscale, NULL);
8103 if (NUMBERP (value))
8104 scale = XFLOATINT (value);
8106 value = image_spec_value (spec, QCmax_width, NULL);
8107 if (NATNUMP (value))
8108 max_width = min (XFASTINT (value), INT_MAX);
8110 value = image_spec_value (spec, QCmax_height, NULL);
8111 if (NATNUMP (value))
8112 max_height = min (XFASTINT (value), INT_MAX);
8114 /* If width and/or height is set in the display spec assume we want
8115 to scale to those values. If either h or w is unspecified, the
8116 unspecified should be calculated from the specified to preserve
8117 aspect ratio. */
8118 value = image_spec_value (spec, QCwidth, NULL);
8119 if (NATNUMP (value))
8121 desired_width = min (XFASTINT (value) * scale, INT_MAX);
8122 /* :width overrides :max-width. */
8123 max_width = -1;
8126 value = image_spec_value (spec, QCheight, NULL);
8127 if (NATNUMP (value))
8129 desired_height = min (XFASTINT (value) * scale, INT_MAX);
8130 /* :height overrides :max-height. */
8131 max_height = -1;
8134 /* If we have both width/height set explicitly, we skip past all the
8135 aspect ratio-preserving computations below. */
8136 if (desired_width != -1 && desired_height != -1)
8137 goto out;
8139 width = width * scale;
8140 height = height * scale;
8142 if (desired_width != -1)
8143 /* Width known, calculate height. */
8144 desired_height = scale_image_size (desired_width, width, height);
8145 else if (desired_height != -1)
8146 /* Height known, calculate width. */
8147 desired_width = scale_image_size (desired_height, height, width);
8148 else
8150 desired_width = width;
8151 desired_height = height;
8154 if (max_width != -1 && desired_width > max_width)
8156 /* The image is wider than :max-width. */
8157 desired_width = max_width;
8158 desired_height = scale_image_size (desired_width, width, height);
8161 if (max_height != -1 && desired_height > max_height)
8163 /* The image is higher than :max-height. */
8164 desired_height = max_height;
8165 desired_width = scale_image_size (desired_height, height, width);
8168 out:
8169 *d_width = desired_width;
8170 *d_height = desired_height;
8173 static bool imagemagick_image_p (Lisp_Object);
8174 static bool imagemagick_load (struct frame *, struct image *);
8175 static void imagemagick_clear_image (struct frame *, struct image *);
8177 /* Indices of image specification fields in imagemagick_format. */
8179 enum imagemagick_keyword_index
8181 IMAGEMAGICK_TYPE,
8182 IMAGEMAGICK_DATA,
8183 IMAGEMAGICK_FILE,
8184 IMAGEMAGICK_ASCENT,
8185 IMAGEMAGICK_MARGIN,
8186 IMAGEMAGICK_RELIEF,
8187 IMAGEMAGICK_ALGORITHM,
8188 IMAGEMAGICK_HEURISTIC_MASK,
8189 IMAGEMAGICK_MASK,
8190 IMAGEMAGICK_BACKGROUND,
8191 IMAGEMAGICK_HEIGHT,
8192 IMAGEMAGICK_WIDTH,
8193 IMAGEMAGICK_MAX_HEIGHT,
8194 IMAGEMAGICK_MAX_WIDTH,
8195 IMAGEMAGICK_FORMAT,
8196 IMAGEMAGICK_ROTATION,
8197 IMAGEMAGICK_CROP,
8198 IMAGEMAGICK_LAST
8201 /* Vector of image_keyword structures describing the format
8202 of valid user-defined image specifications. */
8204 static struct image_keyword imagemagick_format[IMAGEMAGICK_LAST] =
8206 {":type", IMAGE_SYMBOL_VALUE, 1},
8207 {":data", IMAGE_STRING_VALUE, 0},
8208 {":file", IMAGE_STRING_VALUE, 0},
8209 {":ascent", IMAGE_ASCENT_VALUE, 0},
8210 {":margin", IMAGE_NON_NEGATIVE_INTEGER_VALUE_OR_PAIR, 0},
8211 {":relief", IMAGE_INTEGER_VALUE, 0},
8212 {":conversion", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
8213 {":heuristic-mask", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
8214 {":mask", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
8215 {":background", IMAGE_STRING_OR_NIL_VALUE, 0},
8216 {":height", IMAGE_INTEGER_VALUE, 0},
8217 {":width", IMAGE_INTEGER_VALUE, 0},
8218 {":max-height", IMAGE_INTEGER_VALUE, 0},
8219 {":max-width", IMAGE_INTEGER_VALUE, 0},
8220 {":format", IMAGE_SYMBOL_VALUE, 0},
8221 {":rotation", IMAGE_NUMBER_VALUE, 0},
8222 {":crop", IMAGE_DONT_CHECK_VALUE_TYPE, 0}
8225 #if defined HAVE_NTGUI && defined WINDOWSNT
8226 static bool init_imagemagick_functions (void);
8227 #else
8228 #define init_imagemagick_functions NULL
8229 #endif
8231 /* Structure describing the image type for any image handled via
8232 ImageMagick. */
8234 static struct image_type imagemagick_type =
8236 SYMBOL_INDEX (Qimagemagick),
8237 imagemagick_image_p,
8238 imagemagick_load,
8239 imagemagick_clear_image,
8240 init_imagemagick_functions,
8241 NULL
8244 /* Free X resources of imagemagick image IMG which is used on frame F. */
8246 static void
8247 imagemagick_clear_image (struct frame *f,
8248 struct image *img)
8250 x_clear_image (f, img);
8253 /* Return true if OBJECT is a valid IMAGEMAGICK image specification. Do
8254 this by calling parse_image_spec and supplying the keywords that
8255 identify the IMAGEMAGICK format. */
8257 static bool
8258 imagemagick_image_p (Lisp_Object object)
8260 struct image_keyword fmt[IMAGEMAGICK_LAST];
8261 memcpy (fmt, imagemagick_format, sizeof fmt);
8263 if (!parse_image_spec (object, fmt, IMAGEMAGICK_LAST, Qimagemagick))
8264 return 0;
8266 /* Must specify either the :data or :file keyword. */
8267 return fmt[IMAGEMAGICK_FILE].count + fmt[IMAGEMAGICK_DATA].count == 1;
8270 /* The GIF library also defines DrawRectangle, but its never used in Emacs.
8271 Therefore rename the function so it doesn't collide with ImageMagick. */
8272 #define DrawRectangle DrawRectangleGif
8273 #include <wand/MagickWand.h>
8275 /* ImageMagick 6.5.3 through 6.6.5 hid PixelGetMagickColor for some reason.
8276 Emacs seems to work fine with the hidden version, so unhide it. */
8277 #include <magick/version.h>
8278 #if 0x653 <= MagickLibVersion && MagickLibVersion <= 0x665
8279 extern WandExport void PixelGetMagickColor (const PixelWand *,
8280 MagickPixelPacket *);
8281 #endif
8283 /* Log ImageMagick error message.
8284 Useful when a ImageMagick function returns the status `MagickFalse'. */
8286 static void
8287 imagemagick_error (MagickWand *wand)
8289 char *description;
8290 ExceptionType severity;
8292 description = MagickGetException (wand, &severity);
8293 image_error ("ImageMagick error: %s", build_string (description));
8294 MagickRelinquishMemory (description);
8297 /* Possibly give ImageMagick some extra help to determine the image
8298 type by supplying a "dummy" filename based on the Content-Type. */
8300 static char *
8301 imagemagick_filename_hint (Lisp_Object spec, char hint_buffer[MaxTextExtent])
8303 Lisp_Object symbol = intern ("image-format-suffixes");
8304 Lisp_Object val = find_symbol_value (symbol);
8305 Lisp_Object format;
8307 if (! CONSP (val))
8308 return NULL;
8310 format = image_spec_value (spec, intern (":format"), NULL);
8311 val = Fcar_safe (Fcdr_safe (Fassq (format, val)));
8312 if (! STRINGP (val))
8313 return NULL;
8315 /* It's OK to truncate the hint if it has MaxTextExtent or more bytes,
8316 as ImageMagick would ignore the extra bytes anyway. */
8317 snprintf (hint_buffer, MaxTextExtent, "/tmp/foo.%s", SSDATA (val));
8318 return hint_buffer;
8321 /* Animated images (e.g., GIF89a) are composed from one "master image"
8322 (which is the first one, and then there's a number of images that
8323 follow. If following images have non-transparent colors, these are
8324 composed "on top" of the master image. So, in general, one has to
8325 compute ann the preceding images to be able to display a particular
8326 sub-image.
8328 Computing all the preceding images is too slow, so we maintain a
8329 cache of previously computed images. We have to maintain a cache
8330 separate from the image cache, because the images may be scaled
8331 before display. */
8333 struct animation_cache
8335 MagickWand *wand;
8336 int index;
8337 struct timespec update_time;
8338 struct animation_cache *next;
8339 char signature[FLEXIBLE_ARRAY_MEMBER];
8342 static struct animation_cache *animation_cache = NULL;
8344 static struct animation_cache *
8345 imagemagick_create_cache (char *signature)
8347 struct animation_cache *cache
8348 = xmalloc (FLEXSIZEOF (struct animation_cache, signature,
8349 strlen (signature) + 1));
8350 cache->wand = 0;
8351 cache->index = 0;
8352 cache->next = 0;
8353 strcpy (cache->signature, signature);
8354 return cache;
8357 /* Discard cached images that haven't been used for a minute. */
8358 static void
8359 imagemagick_prune_animation_cache (void)
8361 struct animation_cache **pcache = &animation_cache;
8362 struct timespec old = timespec_sub (current_timespec (),
8363 make_timespec (60, 0));
8365 while (*pcache)
8367 struct animation_cache *cache = *pcache;
8368 if (timespec_cmp (old, cache->update_time) <= 0)
8369 pcache = &cache->next;
8370 else
8372 if (cache->wand)
8373 DestroyMagickWand (cache->wand);
8374 *pcache = cache->next;
8375 xfree (cache);
8380 static struct animation_cache *
8381 imagemagick_get_animation_cache (MagickWand *wand)
8383 char *signature = MagickGetImageSignature (wand);
8384 struct animation_cache *cache;
8385 struct animation_cache **pcache = &animation_cache;
8387 imagemagick_prune_animation_cache ();
8389 while (1)
8391 cache = *pcache;
8392 if (! cache)
8394 *pcache = cache = imagemagick_create_cache (signature);
8395 break;
8397 if (strcmp (signature, cache->signature) == 0)
8398 break;
8399 pcache = &cache->next;
8402 DestroyString (signature);
8403 cache->update_time = current_timespec ();
8404 return cache;
8407 static MagickWand *
8408 imagemagick_compute_animated_image (MagickWand *super_wand, int ino)
8410 int i;
8411 MagickWand *composite_wand;
8412 size_t dest_width, dest_height;
8413 struct animation_cache *cache = imagemagick_get_animation_cache (super_wand);
8415 MagickSetIteratorIndex (super_wand, 0);
8417 if (ino == 0 || cache->wand == NULL || cache->index > ino)
8419 composite_wand = MagickGetImage (super_wand);
8420 if (cache->wand)
8421 DestroyMagickWand (cache->wand);
8423 else
8424 composite_wand = cache->wand;
8426 dest_height = MagickGetImageHeight (composite_wand);
8428 for (i = max (1, cache->index + 1); i <= ino; i++)
8430 MagickWand *sub_wand;
8431 PixelIterator *source_iterator, *dest_iterator;
8432 PixelWand **source, **dest;
8433 size_t source_width, source_height;
8434 ssize_t source_left, source_top;
8435 MagickPixelPacket pixel;
8436 DisposeType dispose;
8437 ptrdiff_t lines = 0;
8439 MagickSetIteratorIndex (super_wand, i);
8440 sub_wand = MagickGetImage (super_wand);
8442 MagickGetImagePage (sub_wand, &source_width, &source_height,
8443 &source_left, &source_top);
8445 /* This flag says how to handle transparent pixels. */
8446 dispose = MagickGetImageDispose (sub_wand);
8448 source_iterator = NewPixelIterator (sub_wand);
8449 if (! source_iterator)
8451 DestroyMagickWand (composite_wand);
8452 DestroyMagickWand (sub_wand);
8453 cache->wand = NULL;
8454 image_error ("Imagemagick pixel iterator creation failed");
8455 return NULL;
8458 dest_iterator = NewPixelIterator (composite_wand);
8459 if (! dest_iterator)
8461 DestroyMagickWand (composite_wand);
8462 DestroyMagickWand (sub_wand);
8463 DestroyPixelIterator (source_iterator);
8464 cache->wand = NULL;
8465 image_error ("Imagemagick pixel iterator creation failed");
8466 return NULL;
8469 /* The sub-image may not start at origin, so move the destination
8470 iterator to where the sub-image should start. */
8471 if (source_top > 0)
8473 PixelSetIteratorRow (dest_iterator, source_top);
8474 lines = source_top;
8477 while ((source = PixelGetNextIteratorRow (source_iterator, &source_width))
8478 != NULL)
8480 ptrdiff_t x;
8482 /* Sanity check. This shouldn't happen, but apparently
8483 does in some pictures. */
8484 if (++lines >= dest_height)
8485 break;
8487 dest = PixelGetNextIteratorRow (dest_iterator, &dest_width);
8488 for (x = 0; x < source_width; x++)
8490 /* Sanity check. This shouldn't happen, but apparently
8491 also does in some pictures. */
8492 if (x + source_left >= dest_width)
8493 break;
8494 /* Normally we only copy over non-transparent pixels,
8495 but if the disposal method is "Background", then we
8496 copy over all pixels. */
8497 if (dispose == BackgroundDispose || PixelGetAlpha (source[x]))
8499 PixelGetMagickColor (source[x], &pixel);
8500 PixelSetMagickColor (dest[x + source_left], &pixel);
8503 PixelSyncIterator (dest_iterator);
8506 DestroyPixelIterator (source_iterator);
8507 DestroyPixelIterator (dest_iterator);
8508 DestroyMagickWand (sub_wand);
8511 /* Cache a copy for the next iteration. The current wand will be
8512 destroyed by the caller. */
8513 cache->wand = CloneMagickWand (composite_wand);
8514 cache->index = ino;
8516 return composite_wand;
8520 /* Helper function for imagemagick_load, which does the actual loading
8521 given contents and size, apart from frame and image structures,
8522 passed from imagemagick_load. Uses librimagemagick to do most of
8523 the image processing.
8525 F is a pointer to the Emacs frame; IMG to the image structure to
8526 prepare; CONTENTS is the string containing the IMAGEMAGICK data to
8527 be parsed; SIZE is the number of bytes of data; and FILENAME is
8528 either the file name or the image data.
8530 Return true if successful. */
8532 static bool
8533 imagemagick_load_image (struct frame *f, struct image *img,
8534 unsigned char *contents, unsigned int size,
8535 char *filename)
8537 int width, height;
8538 size_t image_width, image_height;
8539 MagickBooleanType status;
8540 XImagePtr ximg;
8541 int x, y;
8542 MagickWand *image_wand;
8543 PixelIterator *iterator;
8544 PixelWand **pixels, *bg_wand = NULL;
8545 MagickPixelPacket pixel;
8546 Lisp_Object image;
8547 Lisp_Object value;
8548 Lisp_Object crop;
8549 EMACS_INT ino;
8550 int desired_width, desired_height;
8551 double rotation;
8552 char hint_buffer[MaxTextExtent];
8553 char *filename_hint = NULL;
8555 /* Initialize the ImageMagick environment. */
8556 static bool imagemagick_initialized;
8557 if (!imagemagick_initialized)
8559 imagemagick_initialized = true;
8560 MagickWandGenesis ();
8563 /* Handle image index for image types who can contain more than one image.
8564 Interface :index is same as for GIF. First we "ping" the image to see how
8565 many sub-images it contains. Pinging is faster than loading the image to
8566 find out things about it. */
8568 image = image_spec_value (img->spec, QCindex, NULL);
8569 ino = INTEGERP (image) ? XFASTINT (image) : 0;
8570 image_wand = NewMagickWand ();
8572 if (filename)
8573 status = MagickReadImage (image_wand, filename);
8574 else
8576 Lisp_Object lwidth = image_spec_value (img->spec, QCwidth, NULL);
8577 Lisp_Object lheight = image_spec_value (img->spec, QCheight, NULL);
8579 if (NATNUMP (lwidth) && NATNUMP (lheight))
8581 MagickSetSize (image_wand, XFASTINT (lwidth), XFASTINT (lheight));
8582 MagickSetDepth (image_wand, 8);
8584 filename_hint = imagemagick_filename_hint (img->spec, hint_buffer);
8585 MagickSetFilename (image_wand, filename_hint);
8586 status = MagickReadImageBlob (image_wand, contents, size);
8589 if (status == MagickFalse)
8591 imagemagick_error (image_wand);
8592 DestroyMagickWand (image_wand);
8593 return 0;
8596 #ifdef HAVE_MAGICKAUTOORIENTIMAGE
8597 /* If no :rotation is explicitly specified, apply the automatic
8598 rotation from EXIF. */
8599 if (NILP (image_spec_value (img->spec, QCrotation, NULL)))
8600 if (MagickAutoOrientImage (image_wand) == MagickFalse)
8602 image_error ("Error applying automatic orientation in image `%s'", img->spec);
8603 DestroyMagickWand (image_wand);
8604 return 0;
8606 #endif
8608 if (ino < 0 || ino >= MagickGetNumberImages (image_wand))
8610 image_error ("Invalid image number `%s' in image `%s'", image, img->spec);
8611 DestroyMagickWand (image_wand);
8612 return 0;
8615 if (MagickGetImageDelay (image_wand) > 0)
8616 img->lisp_data =
8617 Fcons (Qdelay,
8618 Fcons (make_float (MagickGetImageDelay (image_wand) / 100.0),
8619 img->lisp_data));
8621 if (MagickGetNumberImages (image_wand) > 1)
8622 img->lisp_data =
8623 Fcons (Qcount,
8624 Fcons (make_number (MagickGetNumberImages (image_wand)),
8625 img->lisp_data));
8627 /* If we have an animated image, get the new wand based on the
8628 "super-wand". */
8629 if (MagickGetNumberImages (image_wand) > 1)
8631 MagickWand *super_wand = image_wand;
8632 image_wand = imagemagick_compute_animated_image (super_wand, ino);
8633 if (! image_wand)
8634 image_wand = super_wand;
8635 else
8636 DestroyMagickWand (super_wand);
8639 /* Retrieve the frame's background color, for use later. */
8641 XColor bgcolor;
8642 Lisp_Object specified_bg;
8644 specified_bg = image_spec_value (img->spec, QCbackground, NULL);
8645 if (!STRINGP (specified_bg)
8646 || !x_defined_color (f, SSDATA (specified_bg), &bgcolor, 0))
8647 x_query_frame_background_color (f, &bgcolor);
8649 bg_wand = NewPixelWand ();
8650 PixelSetRed (bg_wand, (double) bgcolor.red / 65535);
8651 PixelSetGreen (bg_wand, (double) bgcolor.green / 65535);
8652 PixelSetBlue (bg_wand, (double) bgcolor.blue / 65535);
8655 compute_image_size (MagickGetImageWidth (image_wand),
8656 MagickGetImageHeight (image_wand),
8657 img->spec, &desired_width, &desired_height);
8659 if (desired_width != -1 && desired_height != -1)
8661 status = MagickScaleImage (image_wand, desired_width, desired_height);
8662 if (status == MagickFalse)
8664 image_error ("Imagemagick scale failed");
8665 imagemagick_error (image_wand);
8666 goto imagemagick_error;
8670 /* crop behaves similar to image slicing in Emacs but is more memory
8671 efficient. */
8672 crop = image_spec_value (img->spec, QCcrop, NULL);
8674 if (CONSP (crop) && TYPE_RANGED_INTEGERP (size_t, XCAR (crop)))
8676 /* After some testing, it seems MagickCropImage is the fastest crop
8677 function in ImageMagick. This crop function seems to do less copying
8678 than the alternatives, but it still reads the entire image into memory
8679 before cropping, which is apparently difficult to avoid when using
8680 imagemagick. */
8681 size_t crop_width = XINT (XCAR (crop));
8682 crop = XCDR (crop);
8683 if (CONSP (crop) && TYPE_RANGED_INTEGERP (size_t, XCAR (crop)))
8685 size_t crop_height = XINT (XCAR (crop));
8686 crop = XCDR (crop);
8687 if (CONSP (crop) && TYPE_RANGED_INTEGERP (ssize_t, XCAR (crop)))
8689 ssize_t crop_x = XINT (XCAR (crop));
8690 crop = XCDR (crop);
8691 if (CONSP (crop) && TYPE_RANGED_INTEGERP (ssize_t, XCAR (crop)))
8693 ssize_t crop_y = XINT (XCAR (crop));
8694 MagickCropImage (image_wand, crop_width, crop_height,
8695 crop_x, crop_y);
8701 /* Furthermore :rotation. we need background color and angle for
8702 rotation. */
8704 TODO background handling for rotation specified_bg =
8705 image_spec_value (img->spec, QCbackground, NULL); if (!STRINGP
8706 (specified_bg). */
8707 value = image_spec_value (img->spec, QCrotation, NULL);
8708 if (FLOATP (value))
8710 rotation = XFLOAT_DATA (value);
8711 status = MagickRotateImage (image_wand, bg_wand, rotation);
8712 if (status == MagickFalse)
8714 image_error ("Imagemagick image rotate failed");
8715 imagemagick_error (image_wand);
8716 goto imagemagick_error;
8720 /* Set the canvas background color to the frame or specified
8721 background, and flatten the image. Note: as of ImageMagick
8722 6.6.0, SVG image transparency is not handled properly
8723 (e.g. etc/images/splash.svg shows a white background always). */
8725 MagickWand *new_wand;
8726 MagickSetImageBackgroundColor (image_wand, bg_wand);
8727 #ifdef HAVE_MAGICKMERGEIMAGELAYERS
8728 new_wand = MagickMergeImageLayers (image_wand, MergeLayer);
8729 #else
8730 new_wand = MagickFlattenImages (image_wand);
8731 #endif
8732 DestroyMagickWand (image_wand);
8733 image_wand = new_wand;
8736 /* Finally we are done manipulating the image. Figure out the
8737 resulting width/height and transfer ownership to Emacs. */
8738 image_height = MagickGetImageHeight (image_wand);
8739 image_width = MagickGetImageWidth (image_wand);
8741 if (! (image_width <= INT_MAX && image_height <= INT_MAX
8742 && check_image_size (f, image_width, image_height)))
8744 image_size_error ();
8745 goto imagemagick_error;
8748 width = image_width;
8749 height = image_height;
8751 /* We can now get a valid pixel buffer from the imagemagick file, if all
8752 went ok. */
8754 init_color_table ();
8756 #if defined (HAVE_MAGICKEXPORTIMAGEPIXELS) && ! defined (HAVE_NS)
8757 if (imagemagick_render_type != 0)
8759 /* Magicexportimage is normally faster than pixelpushing. This
8760 method is also well tested. Some aspects of this method are
8761 ad-hoc and needs to be more researched. */
8762 int imagedepth = 24; /*MagickGetImageDepth(image_wand);*/
8763 const char *exportdepth = imagedepth <= 8 ? "I" : "BGRP"; /*"RGBP";*/
8764 /* Try to create a x pixmap to hold the imagemagick pixmap. */
8765 if (!image_create_x_image_and_pixmap (f, img, width, height, imagedepth,
8766 &ximg, 0))
8768 #ifdef COLOR_TABLE_SUPPORT
8769 free_color_table ();
8770 #endif
8771 image_error ("Imagemagick X bitmap allocation failure");
8772 goto imagemagick_error;
8775 /* Oddly, the below code doesn't seem to work:*/
8776 /* switch(ximg->bitmap_unit){ */
8777 /* case 8: */
8778 /* pixelwidth=CharPixel; */
8779 /* break; */
8780 /* case 16: */
8781 /* pixelwidth=ShortPixel; */
8782 /* break; */
8783 /* case 32: */
8784 /* pixelwidth=LongPixel; */
8785 /* break; */
8786 /* } */
8788 Here im just guessing the format of the bitmap.
8789 happens to work fine for:
8790 - bw djvu images
8791 on rgb display.
8792 seems about 3 times as fast as pixel pushing(not carefully measured)
8794 int pixelwidth = CharPixel; /*??? TODO figure out*/
8795 MagickExportImagePixels (image_wand, 0, 0, width, height,
8796 exportdepth, pixelwidth, ximg->data);
8798 else
8799 #endif /* HAVE_MAGICKEXPORTIMAGEPIXELS */
8801 size_t image_height;
8802 MagickRealType color_scale = 65535.0 / QuantumRange;
8804 /* Try to create a x pixmap to hold the imagemagick pixmap. */
8805 if (!image_create_x_image_and_pixmap (f, img, width, height, 0,
8806 &ximg, 0))
8808 #ifdef COLOR_TABLE_SUPPORT
8809 free_color_table ();
8810 #endif
8811 image_error ("Imagemagick X bitmap allocation failure");
8812 goto imagemagick_error;
8815 /* Copy imagemagick image to x with primitive yet robust pixel
8816 pusher loop. This has been tested a lot with many different
8817 images. */
8819 /* Copy pixels from the imagemagick image structure to the x image map. */
8820 iterator = NewPixelIterator (image_wand);
8821 if (! iterator)
8823 #ifdef COLOR_TABLE_SUPPORT
8824 free_color_table ();
8825 #endif
8826 x_destroy_x_image (ximg);
8827 image_error ("Imagemagick pixel iterator creation failed");
8828 goto imagemagick_error;
8831 image_height = MagickGetImageHeight (image_wand);
8832 for (y = 0; y < image_height; y++)
8834 size_t row_width;
8835 pixels = PixelGetNextIteratorRow (iterator, &row_width);
8836 if (! pixels)
8837 break;
8838 int xlim = min (row_width, width);
8839 for (x = 0; x < xlim; x++)
8841 PixelGetMagickColor (pixels[x], &pixel);
8842 XPutPixel (ximg, x, y,
8843 lookup_rgb_color (f,
8844 color_scale * pixel.red,
8845 color_scale * pixel.green,
8846 color_scale * pixel.blue));
8849 DestroyPixelIterator (iterator);
8852 #ifdef COLOR_TABLE_SUPPORT
8853 /* Remember colors allocated for this image. */
8854 img->colors = colors_in_color_table (&img->ncolors);
8855 free_color_table ();
8856 #endif /* COLOR_TABLE_SUPPORT */
8858 img->width = width;
8859 img->height = height;
8861 /* Put ximg into the image. */
8862 image_put_x_image (f, img, ximg, 0);
8864 /* Final cleanup. image_wand should be the only resource left. */
8865 DestroyMagickWand (image_wand);
8866 if (bg_wand) DestroyPixelWand (bg_wand);
8868 /* Do not call MagickWandTerminus, to work around ImageMagick bug 825. See:
8869 https://github.com/ImageMagick/ImageMagick/issues/825
8870 Although this bug was introduced in ImageMagick 6.9.9-14 and
8871 fixed in 6.9.9-18, it's simpler to work around it in all versions. */
8873 return 1;
8875 imagemagick_error:
8876 DestroyMagickWand (image_wand);
8877 if (bg_wand) DestroyPixelWand (bg_wand);
8879 /* TODO more cleanup. */
8880 image_error ("Error parsing IMAGEMAGICK image `%s'", img->spec);
8881 return 0;
8885 /* Load IMAGEMAGICK image IMG for use on frame F. Value is true if
8886 successful. this function will go into the imagemagick_type structure, and
8887 the prototype thus needs to be compatible with that structure. */
8889 static bool
8890 imagemagick_load (struct frame *f, struct image *img)
8892 bool success_p = 0;
8893 Lisp_Object file_name;
8895 /* If IMG->spec specifies a file name, create a non-file spec from it. */
8896 file_name = image_spec_value (img->spec, QCfile, NULL);
8897 if (STRINGP (file_name))
8899 Lisp_Object file = x_find_image_file (file_name);
8900 if (!STRINGP (file))
8902 image_error ("Cannot find image file `%s'", file_name);
8903 return 0;
8905 file = ENCODE_FILE (file);
8906 #ifdef WINDOWSNT
8907 file = ansi_encode_filename (file);
8908 #endif
8909 success_p = imagemagick_load_image (f, img, 0, 0, SSDATA (file));
8911 /* Else its not a file, its a lisp object. Load the image from a
8912 lisp object rather than a file. */
8913 else
8915 Lisp_Object data;
8917 data = image_spec_value (img->spec, QCdata, NULL);
8918 if (!STRINGP (data))
8920 image_error ("Invalid image data `%s'", data);
8921 return 0;
8923 success_p = imagemagick_load_image (f, img, SDATA (data),
8924 SBYTES (data), NULL);
8927 return success_p;
8930 DEFUN ("imagemagick-types", Fimagemagick_types, Simagemagick_types, 0, 0, 0,
8931 doc: /* Return a list of image types supported by ImageMagick.
8932 Each entry in this list is a symbol named after an ImageMagick format
8933 tag. See the ImageMagick manual for a list of ImageMagick formats and
8934 their descriptions (http://www.imagemagick.org/script/formats.php).
8935 You can also try the shell command: `identify -list format'.
8937 Note that ImageMagick recognizes many file-types that Emacs does not
8938 recognize as images, such as C. See `imagemagick-enabled-types'
8939 and `imagemagick-types-inhibit'. */)
8940 (void)
8942 Lisp_Object typelist = Qnil;
8943 size_t numf = 0;
8944 ExceptionInfo *ex;
8945 char **imtypes;
8946 size_t i;
8948 ex = AcquireExceptionInfo ();
8949 imtypes = GetMagickList ("*", &numf, ex);
8950 DestroyExceptionInfo (ex);
8952 for (i = 0; i < numf; i++)
8954 Lisp_Object imagemagicktype = intern (imtypes[i]);
8955 typelist = Fcons (imagemagicktype, typelist);
8956 imtypes[i] = MagickRelinquishMemory (imtypes[i]);
8959 MagickRelinquishMemory (imtypes);
8960 return Fnreverse (typelist);
8963 #endif /* defined (HAVE_IMAGEMAGICK) */
8967 /***********************************************************************
8969 ***********************************************************************/
8971 #ifdef HAVE_RSVG
8973 /* Function prototypes. */
8975 static bool svg_image_p (Lisp_Object object);
8976 static bool svg_load (struct frame *f, struct image *img);
8978 static bool svg_load_image (struct frame *, struct image *,
8979 char *, ptrdiff_t, char *);
8981 /* Indices of image specification fields in svg_format, below. */
8983 enum svg_keyword_index
8985 SVG_TYPE,
8986 SVG_DATA,
8987 SVG_FILE,
8988 SVG_ASCENT,
8989 SVG_MARGIN,
8990 SVG_RELIEF,
8991 SVG_ALGORITHM,
8992 SVG_HEURISTIC_MASK,
8993 SVG_MASK,
8994 SVG_BACKGROUND,
8995 SVG_LAST
8998 /* Vector of image_keyword structures describing the format
8999 of valid user-defined image specifications. */
9001 static const struct image_keyword svg_format[SVG_LAST] =
9003 {":type", IMAGE_SYMBOL_VALUE, 1},
9004 {":data", IMAGE_STRING_VALUE, 0},
9005 {":file", IMAGE_STRING_VALUE, 0},
9006 {":ascent", IMAGE_ASCENT_VALUE, 0},
9007 {":margin", IMAGE_NON_NEGATIVE_INTEGER_VALUE_OR_PAIR, 0},
9008 {":relief", IMAGE_INTEGER_VALUE, 0},
9009 {":conversion", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
9010 {":heuristic-mask", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
9011 {":mask", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
9012 {":background", IMAGE_STRING_OR_NIL_VALUE, 0}
9015 # if defined HAVE_NTGUI && defined WINDOWSNT
9016 static bool init_svg_functions (void);
9017 # else
9018 #define init_svg_functions NULL
9019 # endif
9021 /* Structure describing the image type `svg'. Its the same type of
9022 structure defined for all image formats, handled by emacs image
9023 functions. See struct image_type in dispextern.h. */
9025 static struct image_type svg_type =
9027 SYMBOL_INDEX (Qsvg),
9028 svg_image_p,
9029 svg_load,
9030 x_clear_image,
9031 init_svg_functions,
9032 NULL
9036 /* Return true if OBJECT is a valid SVG image specification. Do
9037 this by calling parse_image_spec and supplying the keywords that
9038 identify the SVG format. */
9040 static bool
9041 svg_image_p (Lisp_Object object)
9043 struct image_keyword fmt[SVG_LAST];
9044 memcpy (fmt, svg_format, sizeof fmt);
9046 if (!parse_image_spec (object, fmt, SVG_LAST, Qsvg))
9047 return 0;
9049 /* Must specify either the :data or :file keyword. */
9050 return fmt[SVG_FILE].count + fmt[SVG_DATA].count == 1;
9053 /* Some versions of glib's gatomic.h define MemoryBarrier, but MinGW
9054 w32api 3.18 and later has its own definition. The following gross
9055 hack avoids the clash. */
9056 # ifdef WINDOWSNT
9057 # if (__W32API_MAJOR_VERSION + (__W32API_MINOR_VERSION >= 18)) >= 4
9058 # define W32_SAVE_MINGW_VERSION __MINGW_MAJOR_VERSION
9059 # undef __MINGW_MAJOR_VERSION
9060 # define __MINGW_MAJOR_VERSION 4
9061 # endif
9062 # endif
9064 # include <librsvg/rsvg.h>
9066 # ifdef WINDOWSNT
9068 /* Restore the original definition of __MINGW_MAJOR_VERSION. */
9069 # ifdef W32_SAVE_MINGW_VERSION
9070 # undef __MINGW_MAJOR_VERSION
9071 # define __MINGW_MAJOR_VERSION W32_SAVE_MINGW_VERSION
9072 # ifdef __MINGW_MAJOR_VERSION
9073 # undef W32_SAVE_MINGW_VERSION
9074 # endif
9075 # endif
9077 /* SVG library functions. */
9078 DEF_DLL_FN (RsvgHandle *, rsvg_handle_new, (void));
9079 DEF_DLL_FN (void, rsvg_handle_get_dimensions,
9080 (RsvgHandle *, RsvgDimensionData *));
9081 DEF_DLL_FN (gboolean, rsvg_handle_write,
9082 (RsvgHandle *, const guchar *, gsize, GError **));
9083 DEF_DLL_FN (gboolean, rsvg_handle_close, (RsvgHandle *, GError **));
9084 DEF_DLL_FN (GdkPixbuf *, rsvg_handle_get_pixbuf, (RsvgHandle *));
9085 DEF_DLL_FN (void, rsvg_handle_set_base_uri, (RsvgHandle *, const char *));
9087 DEF_DLL_FN (int, gdk_pixbuf_get_width, (const GdkPixbuf *));
9088 DEF_DLL_FN (int, gdk_pixbuf_get_height, (const GdkPixbuf *));
9089 DEF_DLL_FN (guchar *, gdk_pixbuf_get_pixels, (const GdkPixbuf *));
9090 DEF_DLL_FN (int, gdk_pixbuf_get_rowstride, (const GdkPixbuf *));
9091 DEF_DLL_FN (GdkColorspace, gdk_pixbuf_get_colorspace, (const GdkPixbuf *));
9092 DEF_DLL_FN (int, gdk_pixbuf_get_n_channels, (const GdkPixbuf *));
9093 DEF_DLL_FN (gboolean, gdk_pixbuf_get_has_alpha, (const GdkPixbuf *));
9094 DEF_DLL_FN (int, gdk_pixbuf_get_bits_per_sample, (const GdkPixbuf *));
9096 # if ! GLIB_CHECK_VERSION (2, 36, 0)
9097 DEF_DLL_FN (void, g_type_init, (void));
9098 # endif
9099 DEF_DLL_FN (void, g_object_unref, (gpointer));
9100 DEF_DLL_FN (void, g_clear_error, (GError **));
9102 static bool
9103 init_svg_functions (void)
9105 HMODULE library, gdklib = NULL, glib = NULL, gobject = NULL;
9107 if (!(glib = w32_delayed_load (Qglib))
9108 || !(gobject = w32_delayed_load (Qgobject))
9109 || !(gdklib = w32_delayed_load (Qgdk_pixbuf))
9110 || !(library = w32_delayed_load (Qsvg)))
9112 if (gdklib) FreeLibrary (gdklib);
9113 if (gobject) FreeLibrary (gobject);
9114 if (glib) FreeLibrary (glib);
9115 return 0;
9118 LOAD_DLL_FN (library, rsvg_handle_new);
9119 LOAD_DLL_FN (library, rsvg_handle_get_dimensions);
9120 LOAD_DLL_FN (library, rsvg_handle_write);
9121 LOAD_DLL_FN (library, rsvg_handle_close);
9122 LOAD_DLL_FN (library, rsvg_handle_get_pixbuf);
9123 LOAD_DLL_FN (library, rsvg_handle_set_base_uri);
9125 LOAD_DLL_FN (gdklib, gdk_pixbuf_get_width);
9126 LOAD_DLL_FN (gdklib, gdk_pixbuf_get_height);
9127 LOAD_DLL_FN (gdklib, gdk_pixbuf_get_pixels);
9128 LOAD_DLL_FN (gdklib, gdk_pixbuf_get_rowstride);
9129 LOAD_DLL_FN (gdklib, gdk_pixbuf_get_colorspace);
9130 LOAD_DLL_FN (gdklib, gdk_pixbuf_get_n_channels);
9131 LOAD_DLL_FN (gdklib, gdk_pixbuf_get_has_alpha);
9132 LOAD_DLL_FN (gdklib, gdk_pixbuf_get_bits_per_sample);
9134 # if ! GLIB_CHECK_VERSION (2, 36, 0)
9135 LOAD_DLL_FN (gobject, g_type_init);
9136 # endif
9137 LOAD_DLL_FN (gobject, g_object_unref);
9138 LOAD_DLL_FN (glib, g_clear_error);
9140 return 1;
9143 /* The following aliases for library functions allow dynamic loading
9144 to be used on some platforms. */
9146 # undef gdk_pixbuf_get_bits_per_sample
9147 # undef gdk_pixbuf_get_colorspace
9148 # undef gdk_pixbuf_get_has_alpha
9149 # undef gdk_pixbuf_get_height
9150 # undef gdk_pixbuf_get_n_channels
9151 # undef gdk_pixbuf_get_pixels
9152 # undef gdk_pixbuf_get_rowstride
9153 # undef gdk_pixbuf_get_width
9154 # undef g_clear_error
9155 # undef g_object_unref
9156 # undef g_type_init
9157 # undef rsvg_handle_close
9158 # undef rsvg_handle_get_dimensions
9159 # undef rsvg_handle_get_pixbuf
9160 # undef rsvg_handle_new
9161 # undef rsvg_handle_set_base_uri
9162 # undef rsvg_handle_write
9164 # define gdk_pixbuf_get_bits_per_sample fn_gdk_pixbuf_get_bits_per_sample
9165 # define gdk_pixbuf_get_colorspace fn_gdk_pixbuf_get_colorspace
9166 # define gdk_pixbuf_get_has_alpha fn_gdk_pixbuf_get_has_alpha
9167 # define gdk_pixbuf_get_height fn_gdk_pixbuf_get_height
9168 # define gdk_pixbuf_get_n_channels fn_gdk_pixbuf_get_n_channels
9169 # define gdk_pixbuf_get_pixels fn_gdk_pixbuf_get_pixels
9170 # define gdk_pixbuf_get_rowstride fn_gdk_pixbuf_get_rowstride
9171 # define gdk_pixbuf_get_width fn_gdk_pixbuf_get_width
9172 # define g_clear_error fn_g_clear_error
9173 # define g_object_unref fn_g_object_unref
9174 # if ! GLIB_CHECK_VERSION (2, 36, 0)
9175 # define g_type_init fn_g_type_init
9176 # endif
9177 # define rsvg_handle_close fn_rsvg_handle_close
9178 # define rsvg_handle_get_dimensions fn_rsvg_handle_get_dimensions
9179 # define rsvg_handle_get_pixbuf fn_rsvg_handle_get_pixbuf
9180 # define rsvg_handle_new fn_rsvg_handle_new
9181 # define rsvg_handle_set_base_uri fn_rsvg_handle_set_base_uri
9182 # define rsvg_handle_write fn_rsvg_handle_write
9184 # endif /* !WINDOWSNT */
9186 /* Load SVG image IMG for use on frame F. Value is true if
9187 successful. */
9189 static bool
9190 svg_load (struct frame *f, struct image *img)
9192 bool success_p = 0;
9193 Lisp_Object file_name;
9195 /* If IMG->spec specifies a file name, create a non-file spec from it. */
9196 file_name = image_spec_value (img->spec, QCfile, NULL);
9197 if (STRINGP (file_name))
9199 int fd;
9200 Lisp_Object file = x_find_image_fd (file_name, &fd);
9201 if (!STRINGP (file))
9203 image_error ("Cannot find image file `%s'", file_name);
9204 return 0;
9207 /* Read the entire file into memory. */
9208 ptrdiff_t size;
9209 char *contents = slurp_file (fd, &size);
9210 if (contents == NULL)
9212 image_error ("Error loading SVG image `%s'", file);
9213 return 0;
9215 /* If the file was slurped into memory properly, parse it. */
9216 success_p = svg_load_image (f, img, contents, size,
9217 SSDATA (ENCODE_FILE (file)));
9218 xfree (contents);
9220 /* Else its not a file, its a lisp object. Load the image from a
9221 lisp object rather than a file. */
9222 else
9224 Lisp_Object data, original_filename;
9226 data = image_spec_value (img->spec, QCdata, NULL);
9227 if (!STRINGP (data))
9229 image_error ("Invalid image data `%s'", data);
9230 return 0;
9232 original_filename = BVAR (current_buffer, filename);
9233 success_p = svg_load_image (f, img, SSDATA (data), SBYTES (data),
9234 (NILP (original_filename) ? NULL
9235 : SSDATA (original_filename)));
9238 return success_p;
9241 /* Load frame F and image IMG. CONTENTS contains the SVG XML data to
9242 be parsed, SIZE is its size, and FILENAME is the name of the SVG
9243 file being loaded.
9245 Use librsvg to do most of the image processing.
9247 Return true when successful. */
9248 static bool
9249 svg_load_image (struct frame *f, struct image *img, char *contents,
9250 ptrdiff_t size, char *filename)
9252 RsvgHandle *rsvg_handle;
9253 RsvgDimensionData dimension_data;
9254 GError *err = NULL;
9255 GdkPixbuf *pixbuf;
9256 int width;
9257 int height;
9258 const guint8 *pixels;
9259 int rowstride;
9261 #if ! GLIB_CHECK_VERSION (2, 36, 0)
9262 /* g_type_init is a glib function that must be called prior to
9263 using gnome type library functions (obsolete since 2.36.0). */
9264 g_type_init ();
9265 #endif
9267 /* Make a handle to a new rsvg object. */
9268 rsvg_handle = rsvg_handle_new ();
9270 /* Set base_uri for properly handling referenced images (via 'href').
9271 See rsvg bug 596114 - "image refs are relative to curdir, not .svg file"
9272 (https://bugzilla.gnome.org/show_bug.cgi?id=596114). */
9273 if (filename)
9274 rsvg_handle_set_base_uri(rsvg_handle, filename);
9276 /* Parse the contents argument and fill in the rsvg_handle. */
9277 rsvg_handle_write (rsvg_handle, (unsigned char *) contents, size, &err);
9278 if (err) goto rsvg_error;
9280 /* The parsing is complete, rsvg_handle is ready to used, close it
9281 for further writes. */
9282 rsvg_handle_close (rsvg_handle, &err);
9283 if (err) goto rsvg_error;
9285 rsvg_handle_get_dimensions (rsvg_handle, &dimension_data);
9286 if (! check_image_size (f, dimension_data.width, dimension_data.height))
9288 image_size_error ();
9289 goto rsvg_error;
9292 /* We can now get a valid pixel buffer from the svg file, if all
9293 went ok. */
9294 pixbuf = rsvg_handle_get_pixbuf (rsvg_handle);
9295 if (!pixbuf) goto rsvg_error;
9296 g_object_unref (rsvg_handle);
9298 /* Extract some meta data from the svg handle. */
9299 width = gdk_pixbuf_get_width (pixbuf);
9300 height = gdk_pixbuf_get_height (pixbuf);
9301 pixels = gdk_pixbuf_get_pixels (pixbuf);
9302 rowstride = gdk_pixbuf_get_rowstride (pixbuf);
9304 /* Validate the svg meta data. */
9305 eassert (gdk_pixbuf_get_colorspace (pixbuf) == GDK_COLORSPACE_RGB);
9306 eassert (gdk_pixbuf_get_n_channels (pixbuf) == 4);
9307 eassert (gdk_pixbuf_get_has_alpha (pixbuf));
9308 eassert (gdk_pixbuf_get_bits_per_sample (pixbuf) == 8);
9311 #ifdef USE_CAIRO
9312 unsigned char *data = (unsigned char *) xmalloc (width*height*4);
9313 uint32_t bgcolor = get_spec_bg_or_alpha_as_argb (img, f);
9315 for (int y = 0; y < height; ++y)
9317 const guchar *iconptr = pixels + y * rowstride;
9318 uint32_t *dataptr = (uint32_t *) (data + y * rowstride);
9320 for (int x = 0; x < width; ++x)
9322 if (iconptr[3] == 0)
9323 *dataptr = bgcolor;
9324 else
9325 *dataptr = (iconptr[0] << 16)
9326 | (iconptr[1] << 8)
9327 | iconptr[2]
9328 | (iconptr[3] << 24);
9330 iconptr += 4;
9331 ++dataptr;
9335 create_cairo_image_surface (img, data, width, height);
9336 g_object_unref (pixbuf);
9337 #else
9338 /* Try to create a x pixmap to hold the svg pixmap. */
9339 XImagePtr ximg;
9340 if (!image_create_x_image_and_pixmap (f, img, width, height, 0, &ximg, 0))
9342 g_object_unref (pixbuf);
9343 return 0;
9346 init_color_table ();
9348 /* Handle alpha channel by combining the image with a background
9349 color. */
9350 XColor background;
9351 Lisp_Object specified_bg = image_spec_value (img->spec, QCbackground, NULL);
9352 if (!STRINGP (specified_bg)
9353 || !x_defined_color (f, SSDATA (specified_bg), &background, 0))
9354 x_query_frame_background_color (f, &background);
9356 /* SVG pixmaps specify transparency in the last byte, so right
9357 shift 8 bits to get rid of it, since emacs doesn't support
9358 transparency. */
9359 background.red >>= 8;
9360 background.green >>= 8;
9361 background.blue >>= 8;
9363 /* This loop handles opacity values, since Emacs assumes
9364 non-transparent images. Each pixel must be "flattened" by
9365 calculating the resulting color, given the transparency of the
9366 pixel, and the image background color. */
9367 for (int y = 0; y < height; ++y)
9369 for (int x = 0; x < width; ++x)
9371 int red = *pixels++;
9372 int green = *pixels++;
9373 int blue = *pixels++;
9374 int opacity = *pixels++;
9376 red = ((red * opacity)
9377 + (background.red * ((1 << 8) - opacity)));
9378 green = ((green * opacity)
9379 + (background.green * ((1 << 8) - opacity)));
9380 blue = ((blue * opacity)
9381 + (background.blue * ((1 << 8) - opacity)));
9383 XPutPixel (ximg, x, y, lookup_rgb_color (f, red, green, blue));
9386 pixels += rowstride - 4 * width;
9389 #ifdef COLOR_TABLE_SUPPORT
9390 /* Remember colors allocated for this image. */
9391 img->colors = colors_in_color_table (&img->ncolors);
9392 free_color_table ();
9393 #endif /* COLOR_TABLE_SUPPORT */
9395 g_object_unref (pixbuf);
9397 img->width = width;
9398 img->height = height;
9400 /* Maybe fill in the background field while we have ximg handy.
9401 Casting avoids a GCC warning. */
9402 IMAGE_BACKGROUND (img, f, (XImagePtr_or_DC)ximg);
9404 /* Put ximg into the image. */
9405 image_put_x_image (f, img, ximg, 0);
9406 #endif /* ! USE_CAIRO */
9409 return 1;
9411 rsvg_error:
9412 g_object_unref (rsvg_handle);
9413 /* FIXME: Use error->message so the user knows what is the actual
9414 problem with the image. */
9415 image_error ("Error parsing SVG image `%s'", img->spec);
9416 g_clear_error (&err);
9417 return 0;
9420 #endif /* defined (HAVE_RSVG) */
9425 /***********************************************************************
9426 Ghostscript
9427 ***********************************************************************/
9429 #ifdef HAVE_X_WINDOWS
9430 #define HAVE_GHOSTSCRIPT 1
9431 #endif /* HAVE_X_WINDOWS */
9433 #ifdef HAVE_GHOSTSCRIPT
9435 static bool gs_image_p (Lisp_Object object);
9436 static bool gs_load (struct frame *f, struct image *img);
9437 static void gs_clear_image (struct frame *f, struct image *img);
9439 /* Indices of image specification fields in gs_format, below. */
9441 enum gs_keyword_index
9443 GS_TYPE,
9444 GS_PT_WIDTH,
9445 GS_PT_HEIGHT,
9446 GS_FILE,
9447 GS_LOADER,
9448 GS_BOUNDING_BOX,
9449 GS_ASCENT,
9450 GS_MARGIN,
9451 GS_RELIEF,
9452 GS_ALGORITHM,
9453 GS_HEURISTIC_MASK,
9454 GS_MASK,
9455 GS_BACKGROUND,
9456 GS_LAST
9459 /* Vector of image_keyword structures describing the format
9460 of valid user-defined image specifications. */
9462 static const struct image_keyword gs_format[GS_LAST] =
9464 {":type", IMAGE_SYMBOL_VALUE, 1},
9465 {":pt-width", IMAGE_POSITIVE_INTEGER_VALUE, 1},
9466 {":pt-height", IMAGE_POSITIVE_INTEGER_VALUE, 1},
9467 {":file", IMAGE_STRING_VALUE, 1},
9468 {":loader", IMAGE_FUNCTION_VALUE, 0},
9469 {":bounding-box", IMAGE_DONT_CHECK_VALUE_TYPE, 1},
9470 {":ascent", IMAGE_ASCENT_VALUE, 0},
9471 {":margin", IMAGE_NON_NEGATIVE_INTEGER_VALUE_OR_PAIR, 0},
9472 {":relief", IMAGE_INTEGER_VALUE, 0},
9473 {":conversion", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
9474 {":heuristic-mask", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
9475 {":mask", IMAGE_DONT_CHECK_VALUE_TYPE, 0},
9476 {":background", IMAGE_STRING_OR_NIL_VALUE, 0}
9479 /* Structure describing the image type `ghostscript'. */
9481 static struct image_type gs_type =
9483 SYMBOL_INDEX (Qpostscript),
9484 gs_image_p,
9485 gs_load,
9486 gs_clear_image,
9487 NULL,
9488 NULL
9492 /* Free X resources of Ghostscript image IMG which is used on frame F. */
9494 static void
9495 gs_clear_image (struct frame *f, struct image *img)
9497 x_clear_image (f, img);
9501 /* Return true if OBJECT is a valid Ghostscript image
9502 specification. */
9504 static bool
9505 gs_image_p (Lisp_Object object)
9507 struct image_keyword fmt[GS_LAST];
9508 Lisp_Object tem;
9509 int i;
9511 memcpy (fmt, gs_format, sizeof fmt);
9513 if (!parse_image_spec (object, fmt, GS_LAST, Qpostscript))
9514 return 0;
9516 /* Bounding box must be a list or vector containing 4 integers. */
9517 tem = fmt[GS_BOUNDING_BOX].value;
9518 if (CONSP (tem))
9520 for (i = 0; i < 4; ++i, tem = XCDR (tem))
9521 if (!CONSP (tem) || !INTEGERP (XCAR (tem)))
9522 return 0;
9523 if (!NILP (tem))
9524 return 0;
9526 else if (VECTORP (tem))
9528 if (ASIZE (tem) != 4)
9529 return 0;
9530 for (i = 0; i < 4; ++i)
9531 if (!INTEGERP (AREF (tem, i)))
9532 return 0;
9534 else
9535 return 0;
9537 return 1;
9541 /* Load Ghostscript image IMG for use on frame F. Value is true
9542 if successful. */
9544 static bool
9545 gs_load (struct frame *f, struct image *img)
9547 uprintmax_t printnum1, printnum2;
9548 char buffer[sizeof " " + INT_STRLEN_BOUND (printmax_t)];
9549 Lisp_Object window_and_pixmap_id = Qnil, loader, pt_height, pt_width;
9550 Lisp_Object frame;
9551 double in_width, in_height;
9552 Lisp_Object pixel_colors = Qnil;
9554 /* Compute pixel size of pixmap needed from the given size in the
9555 image specification. Sizes in the specification are in pt. 1 pt
9556 = 1/72 in, xdpi and ydpi are stored in the frame's X display
9557 info. */
9558 pt_width = image_spec_value (img->spec, QCpt_width, NULL);
9559 in_width = INTEGERP (pt_width) ? XFASTINT (pt_width) / 72.0 : 0;
9560 in_width *= FRAME_RES_X (f);
9561 pt_height = image_spec_value (img->spec, QCpt_height, NULL);
9562 in_height = INTEGERP (pt_height) ? XFASTINT (pt_height) / 72.0 : 0;
9563 in_height *= FRAME_RES_Y (f);
9565 if (! (in_width <= INT_MAX && in_height <= INT_MAX
9566 && check_image_size (f, in_width, in_height)))
9568 image_size_error ();
9569 return 0;
9571 img->width = in_width;
9572 img->height = in_height;
9574 /* Create the pixmap. */
9575 eassert (img->pixmap == NO_PIXMAP);
9577 if (x_check_image_size (0, img->width, img->height))
9579 /* Only W32 version did BLOCK_INPUT here. ++kfs */
9580 block_input ();
9581 img->pixmap = XCreatePixmap (FRAME_X_DISPLAY (f), FRAME_X_DRAWABLE (f),
9582 img->width, img->height,
9583 DefaultDepthOfScreen (FRAME_X_SCREEN (f)));
9584 unblock_input ();
9587 if (!img->pixmap)
9589 image_error ("Unable to create pixmap for `%s'" , img->spec);
9590 return 0;
9593 /* Call the loader to fill the pixmap. It returns a process object
9594 if successful. We do not record_unwind_protect here because
9595 other places in redisplay like calling window scroll functions
9596 don't either. Let the Lisp loader use `unwind-protect' instead. */
9597 printnum1 = FRAME_X_DRAWABLE (f);
9598 printnum2 = img->pixmap;
9599 window_and_pixmap_id
9600 = make_formatted_string (buffer, "%"pMu" %"pMu, printnum1, printnum2);
9602 printnum1 = FRAME_FOREGROUND_PIXEL (f);
9603 printnum2 = FRAME_BACKGROUND_PIXEL (f);
9604 pixel_colors
9605 = make_formatted_string (buffer, "%"pMu" %"pMu, printnum1, printnum2);
9607 XSETFRAME (frame, f);
9608 loader = image_spec_value (img->spec, QCloader, NULL);
9609 if (NILP (loader))
9610 loader = intern ("gs-load-image");
9612 img->lisp_data = call6 (loader, frame, img->spec,
9613 make_number (img->width),
9614 make_number (img->height),
9615 window_and_pixmap_id,
9616 pixel_colors);
9617 return PROCESSP (img->lisp_data);
9621 /* Kill the Ghostscript process that was started to fill PIXMAP on
9622 frame F. Called from XTread_socket when receiving an event
9623 telling Emacs that Ghostscript has finished drawing. */
9625 void
9626 x_kill_gs_process (Pixmap pixmap, struct frame *f)
9628 struct image_cache *c = FRAME_IMAGE_CACHE (f);
9629 ptrdiff_t i;
9630 struct image *img;
9632 /* Find the image containing PIXMAP. */
9633 for (i = 0; i < c->used; ++i)
9634 if (c->images[i]->pixmap == pixmap)
9635 break;
9637 /* Should someone in between have cleared the image cache, for
9638 instance, give up. */
9639 if (i == c->used)
9640 return;
9642 /* Kill the GS process. We should have found PIXMAP in the image
9643 cache and its image should contain a process object. */
9644 img = c->images[i];
9645 eassert (PROCESSP (img->lisp_data));
9646 Fkill_process (img->lisp_data, Qnil);
9647 img->lisp_data = Qnil;
9649 #if defined (HAVE_X_WINDOWS)
9651 /* On displays with a mutable colormap, figure out the colors
9652 allocated for the image by looking at the pixels of an XImage for
9653 img->pixmap. */
9654 if (x_mutable_colormap (FRAME_X_VISUAL (f)))
9656 XImagePtr ximg;
9658 block_input ();
9660 /* Try to get an XImage for img->pixmep. */
9661 ximg = XGetImage (FRAME_X_DISPLAY (f), img->pixmap,
9662 0, 0, img->width, img->height, ~0, ZPixmap);
9663 if (ximg)
9665 /* Initialize the color table. */
9666 init_color_table ();
9668 /* For each pixel of the image, look its color up in the
9669 color table. After having done so, the color table will
9670 contain an entry for each color used by the image. */
9671 #ifdef COLOR_TABLE_SUPPORT
9672 for (int y = 0; y < img->height; ++y)
9673 for (int x = 0; x < img->width; ++x)
9675 unsigned long pixel = XGetPixel (ximg, x, y);
9677 lookup_pixel_color (f, pixel);
9680 /* Record colors in the image. Free color table and XImage. */
9681 img->colors = colors_in_color_table (&img->ncolors);
9682 free_color_table ();
9683 #endif
9684 XDestroyImage (ximg);
9686 #if 0 /* This doesn't seem to be the case. If we free the colors
9687 here, we get a BadAccess later in x_clear_image when
9688 freeing the colors. */
9689 /* We have allocated colors once, but Ghostscript has also
9690 allocated colors on behalf of us. So, to get the
9691 reference counts right, free them once. */
9692 if (img->ncolors)
9693 x_free_colors (f, img->colors, img->ncolors);
9694 #endif
9696 else
9697 image_error ("Cannot get X image of `%s'; colors will not be freed",
9698 img->spec);
9700 unblock_input ();
9702 #endif /* HAVE_X_WINDOWS */
9704 /* Now that we have the pixmap, compute mask and transform the
9705 image if requested. */
9706 block_input ();
9707 postprocess_image (f, img);
9708 unblock_input ();
9711 #endif /* HAVE_GHOSTSCRIPT */
9714 /***********************************************************************
9715 Tests
9716 ***********************************************************************/
9718 #ifdef GLYPH_DEBUG
9720 DEFUN ("imagep", Fimagep, Simagep, 1, 1, 0,
9721 doc: /* Value is non-nil if SPEC is a valid image specification. */)
9722 (Lisp_Object spec)
9724 return valid_image_p (spec) ? Qt : Qnil;
9728 DEFUN ("lookup-image", Flookup_image, Slookup_image, 1, 1, 0,
9729 doc: /* */)
9730 (Lisp_Object spec)
9732 ptrdiff_t id = -1;
9734 if (valid_image_p (spec))
9735 id = lookup_image (SELECTED_FRAME (), spec);
9737 debug_print (spec);
9738 return make_number (id);
9741 #endif /* GLYPH_DEBUG */
9744 /***********************************************************************
9745 Initialization
9746 ***********************************************************************/
9748 DEFUN ("init-image-library", Finit_image_library, Sinit_image_library, 1, 1, 0,
9749 doc: /* Initialize image library implementing image type TYPE.
9750 Return non-nil if TYPE is a supported image type.
9752 If image libraries are loaded dynamically (currently only the case on
9753 MS-Windows), load the library for TYPE if it is not yet loaded, using
9754 the library file(s) specified by `dynamic-library-alist'. */)
9755 (Lisp_Object type)
9757 return lookup_image_type (type) ? Qt : Qnil;
9760 /* Look up image type TYPE, and return a pointer to its image_type
9761 structure. Return 0 if TYPE is not a known image type. */
9763 static struct image_type *
9764 lookup_image_type (Lisp_Object type)
9766 /* Types pbm and xbm are built-in and always available. */
9767 if (EQ (type, Qpbm))
9768 return define_image_type (&pbm_type);
9770 if (EQ (type, Qxbm))
9771 return define_image_type (&xbm_type);
9773 #if defined (HAVE_XPM) || defined (HAVE_NS)
9774 if (EQ (type, Qxpm))
9775 return define_image_type (&xpm_type);
9776 #endif
9778 #if defined (HAVE_JPEG) || defined (HAVE_NS)
9779 if (EQ (type, Qjpeg))
9780 return define_image_type (&jpeg_type);
9781 #endif
9783 #if defined (HAVE_TIFF) || defined (HAVE_NS)
9784 if (EQ (type, Qtiff))
9785 return define_image_type (&tiff_type);
9786 #endif
9788 #if defined (HAVE_GIF) || defined (HAVE_NS)
9789 if (EQ (type, Qgif))
9790 return define_image_type (&gif_type);
9791 #endif
9793 #if defined (HAVE_PNG) || defined (HAVE_NS) || defined (USE_CAIRO)
9794 if (EQ (type, Qpng))
9795 return define_image_type (&png_type);
9796 #endif
9798 #if defined (HAVE_RSVG)
9799 if (EQ (type, Qsvg))
9800 return define_image_type (&svg_type);
9801 #endif
9803 #if defined (HAVE_IMAGEMAGICK)
9804 if (EQ (type, Qimagemagick))
9805 return define_image_type (&imagemagick_type);
9806 #endif
9808 #ifdef HAVE_GHOSTSCRIPT
9809 if (EQ (type, Qpostscript))
9810 return define_image_type (&gs_type);
9811 #endif
9813 return NULL;
9816 #if !defined CANNOT_DUMP && defined HAVE_WINDOW_SYSTEM
9818 /* Reset image_types before dumping.
9819 Called from Fdump_emacs. */
9821 void
9822 reset_image_types (void)
9824 while (image_types)
9826 struct image_type *next = image_types->next;
9827 xfree (image_types);
9828 image_types = next;
9831 #endif
9833 void
9834 syms_of_image (void)
9836 /* Initialize this only once; it will be reset before dumping. */
9837 image_types = NULL;
9839 /* Must be defined now because we're going to update it below, while
9840 defining the supported image types. */
9841 DEFVAR_LISP ("image-types", Vimage_types,
9842 doc: /* List of potentially supported image types.
9843 Each element of the list is a symbol for an image type, like `jpeg' or `png'.
9844 To check whether it is really supported, use `image-type-available-p'. */);
9845 Vimage_types = Qnil;
9847 DEFVAR_LISP ("max-image-size", Vmax_image_size,
9848 doc: /* Maximum size of images.
9849 Emacs will not load an image into memory if its pixel width or
9850 pixel height exceeds this limit.
9852 If the value is an integer, it directly specifies the maximum
9853 image height and width, measured in pixels. If it is a floating
9854 point number, it specifies the maximum image height and width
9855 as a ratio to the frame height and width. If the value is
9856 non-numeric, there is no explicit limit on the size of images. */);
9857 Vmax_image_size = make_float (MAX_IMAGE_SIZE);
9859 /* Other symbols. */
9860 DEFSYM (Qcount, "count");
9861 DEFSYM (Qextension_data, "extension-data");
9862 DEFSYM (Qdelay, "delay");
9864 /* Keywords. */
9865 DEFSYM (QCascent, ":ascent");
9866 DEFSYM (QCmargin, ":margin");
9867 DEFSYM (QCrelief, ":relief");
9868 DEFSYM (QCconversion, ":conversion");
9869 DEFSYM (QCcolor_symbols, ":color-symbols");
9870 DEFSYM (QCheuristic_mask, ":heuristic-mask");
9871 DEFSYM (QCindex, ":index");
9872 DEFSYM (QCcrop, ":crop");
9873 DEFSYM (QCrotation, ":rotation");
9874 DEFSYM (QCmatrix, ":matrix");
9875 DEFSYM (QCscale, ":scale");
9876 DEFSYM (QCcolor_adjustment, ":color-adjustment");
9877 DEFSYM (QCmask, ":mask");
9879 /* Other symbols. */
9880 DEFSYM (Qlaplace, "laplace");
9881 DEFSYM (Qemboss, "emboss");
9882 DEFSYM (Qedge_detection, "edge-detection");
9883 DEFSYM (Qheuristic, "heuristic");
9885 DEFSYM (Qpostscript, "postscript");
9886 DEFSYM (QCmax_width, ":max-width");
9887 DEFSYM (QCmax_height, ":max-height");
9888 #ifdef HAVE_GHOSTSCRIPT
9889 ADD_IMAGE_TYPE (Qpostscript);
9890 DEFSYM (QCloader, ":loader");
9891 DEFSYM (QCpt_width, ":pt-width");
9892 DEFSYM (QCpt_height, ":pt-height");
9893 #endif /* HAVE_GHOSTSCRIPT */
9895 #ifdef HAVE_NTGUI
9896 /* Versions of libpng, libgif, and libjpeg that we were compiled with,
9897 or -1 if no PNG/GIF support was compiled in. This is tested by
9898 w32-win.el to correctly set up the alist used to search for the
9899 respective image libraries. */
9900 DEFSYM (Qlibpng_version, "libpng-version");
9901 Fset (Qlibpng_version,
9902 #if HAVE_PNG
9903 make_number (PNG_LIBPNG_VER)
9904 #else
9905 make_number (-1)
9906 #endif
9908 DEFSYM (Qlibgif_version, "libgif-version");
9909 Fset (Qlibgif_version,
9910 #ifdef HAVE_GIF
9911 make_number (GIFLIB_MAJOR * 10000
9912 + GIFLIB_MINOR * 100
9913 + GIFLIB_RELEASE)
9914 #else
9915 make_number (-1)
9916 #endif
9918 DEFSYM (Qlibjpeg_version, "libjpeg-version");
9919 Fset (Qlibjpeg_version,
9920 #if HAVE_JPEG
9921 make_number (JPEG_LIB_VERSION)
9922 #else
9923 make_number (-1)
9924 #endif
9926 #endif
9928 DEFSYM (Qpbm, "pbm");
9929 ADD_IMAGE_TYPE (Qpbm);
9931 DEFSYM (Qxbm, "xbm");
9932 ADD_IMAGE_TYPE (Qxbm);
9934 #if defined (HAVE_XPM) || defined (HAVE_NS)
9935 DEFSYM (Qxpm, "xpm");
9936 ADD_IMAGE_TYPE (Qxpm);
9937 #endif
9939 #if defined (HAVE_JPEG) || defined (HAVE_NS)
9940 DEFSYM (Qjpeg, "jpeg");
9941 ADD_IMAGE_TYPE (Qjpeg);
9942 #endif
9944 #if defined (HAVE_TIFF) || defined (HAVE_NS)
9945 DEFSYM (Qtiff, "tiff");
9946 ADD_IMAGE_TYPE (Qtiff);
9947 #endif
9949 #if defined (HAVE_GIF) || defined (HAVE_NS)
9950 DEFSYM (Qgif, "gif");
9951 ADD_IMAGE_TYPE (Qgif);
9952 #endif
9954 #if defined (HAVE_PNG) || defined (HAVE_NS)
9955 DEFSYM (Qpng, "png");
9956 ADD_IMAGE_TYPE (Qpng);
9957 #endif
9959 #if defined (HAVE_IMAGEMAGICK)
9960 DEFSYM (Qimagemagick, "imagemagick");
9961 ADD_IMAGE_TYPE (Qimagemagick);
9962 #endif
9964 #if defined (HAVE_RSVG)
9965 DEFSYM (Qsvg, "svg");
9966 ADD_IMAGE_TYPE (Qsvg);
9967 #ifdef HAVE_NTGUI
9968 /* Other libraries used directly by svg code. */
9969 DEFSYM (Qgdk_pixbuf, "gdk-pixbuf");
9970 DEFSYM (Qglib, "glib");
9971 DEFSYM (Qgobject, "gobject");
9972 #endif /* HAVE_NTGUI */
9973 #endif /* HAVE_RSVG */
9975 defsubr (&Sinit_image_library);
9976 #ifdef HAVE_IMAGEMAGICK
9977 defsubr (&Simagemagick_types);
9978 #endif
9979 defsubr (&Sclear_image_cache);
9980 defsubr (&Simage_flush);
9981 defsubr (&Simage_size);
9982 defsubr (&Simage_mask_p);
9983 defsubr (&Simage_metadata);
9985 #ifdef GLYPH_DEBUG
9986 defsubr (&Simagep);
9987 defsubr (&Slookup_image);
9988 #endif
9990 DEFVAR_BOOL ("cross-disabled-images", cross_disabled_images,
9991 doc: /* Non-nil means always draw a cross over disabled images.
9992 Disabled images are those having a `:conversion disabled' property.
9993 A cross is always drawn on black & white displays. */);
9994 cross_disabled_images = 0;
9996 DEFVAR_LISP ("x-bitmap-file-path", Vx_bitmap_file_path,
9997 doc: /* List of directories to search for window system bitmap files. */);
9998 Vx_bitmap_file_path = decode_env_path (0, PATH_BITMAPS, 0);
10000 DEFVAR_LISP ("image-cache-eviction-delay", Vimage_cache_eviction_delay,
10001 doc: /* Maximum time after which images are removed from the cache.
10002 When an image has not been displayed this many seconds, Emacs
10003 automatically removes it from the image cache. If the cache contains
10004 a large number of images, the actual eviction time may be shorter.
10005 The value can also be nil, meaning the cache is never cleared.
10007 The function `clear-image-cache' disregards this variable. */);
10008 Vimage_cache_eviction_delay = make_number (300);
10009 #ifdef HAVE_IMAGEMAGICK
10010 DEFVAR_INT ("imagemagick-render-type", imagemagick_render_type,
10011 doc: /* Integer indicating which ImageMagick rendering method to use.
10012 The options are:
10013 0 -- the default method (pixel pushing)
10014 1 -- a newer method ("MagickExportImagePixels") that may perform
10015 better (speed etc) in some cases, but has not been as thoroughly
10016 tested with Emacs as the default method. This method requires
10017 ImageMagick version 6.4.6 (approximately) or later.
10018 */);
10019 /* MagickExportImagePixels is in 6.4.6-9, but not 6.4.4-10. */
10020 imagemagick_render_type = 0;
10021 #endif