The Tor Browser / file revision

 /*

  *

  * Copyright © 2000 Keith Packard, member of The XFree86 Project, Inc.

  *             2005 Lars Knoll & Zack Rusin, Trolltech

  *             2008 Aaron Plattner, NVIDIA Corporation

  *

  * Permission to use, copy, modify, distribute, and sell this software and its

  * documentation for any purpose is hereby granted without fee, provided that

  * the above copyright notice appear in all copies and that both that

  * copyright notice and this permission notice appear in supporting

  * documentation, and that the name of Keith Packard not be used in

  * advertising or publicity pertaining to distribution of the software without

  * specific, written prior permission.  Keith Packard makes no

  * representations about the suitability of this software for any purpose.  It

  * is provided "as is" without express or implied warranty.

  *

  * THE COPYRIGHT HOLDERS DISCLAIM ALL WARRANTIES WITH REGARD TO THIS

  * SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND

  * FITNESS, IN NO EVENT SHALL THE COPYRIGHT HOLDERS BE LIABLE FOR ANY

  * SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES

  * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN

  * AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING

  * OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS

  * SOFTWARE.

  */

 #ifdef HAVE_CONFIG_H

 #include <config.h>

 #endif

 #include <stdlib.h>

 #include <string.h>

 #include <assert.h>

 #include <math.h>

 #include "pixman-accessor.h"

 #include "pixman-private.h"

 #define CONVERT_RGB24_TO_Y15(s)						\

     (((((s) >> 16) & 0xff) * 153 +					\

       (((s) >>  8) & 0xff) * 301 +					\

       (((s)      ) & 0xff) * 58) >> 2)

 #define CONVERT_RGB24_TO_RGB15(s)                                       \

     ((((s) >> 3) & 0x001f) |                                            \

      (((s) >> 6) & 0x03e0) |                                            \

      (((s) >> 9) & 0x7c00))

 /* Fetch macros */

 #ifdef WORDS_BIGENDIAN

 #define FETCH_1(img,l,o)						\

     (((READ ((img), ((uint32_t *)(l)) + ((o) >> 5))) >> (0x1f - ((o) & 0x1f))) & 0x1)

 #else

 #define FETCH_1(img,l,o)						\

     ((((READ ((img), ((uint32_t *)(l)) + ((o) >> 5))) >> ((o) & 0x1f))) & 0x1)

 #endif

 #define FETCH_8(img,l,o)    (READ (img, (((uint8_t *)(l)) + ((o) >> 3))))

 #ifdef WORDS_BIGENDIAN

 #define FETCH_4(img,l,o)						\

     (((4 * (o)) & 4) ? (FETCH_8 (img,l, 4 * (o)) & 0xf) : (FETCH_8 (img,l,(4 * (o))) >> 4))

 #else

 #define FETCH_4(img,l,o)						\

     (((4 * (o)) & 4) ? (FETCH_8 (img, l, 4 * (o)) >> 4) : (FETCH_8 (img, l, (4 * (o))) & 0xf))

 #endif

 #ifdef WORDS_BIGENDIAN

 #define FETCH_24(img,l,o)                                              \

     ((READ (img, (((uint8_t *)(l)) + ((o) * 3) + 0)) << 16)    |       \

      (READ (img, (((uint8_t *)(l)) + ((o) * 3) + 1)) << 8)     |       \

      (READ (img, (((uint8_t *)(l)) + ((o) * 3) + 2)) << 0))

 #else

 #define FETCH_24(img,l,o)						\

     ((READ (img, (((uint8_t *)(l)) + ((o) * 3) + 0)) << 0)	|	\

      (READ (img, (((uint8_t *)(l)) + ((o) * 3) + 1)) << 8)	|	\

      (READ (img, (((uint8_t *)(l)) + ((o) * 3) + 2)) << 16))

 #endif

 /* Store macros */

 #ifdef WORDS_BIGENDIAN

 #define STORE_1(img,l,o,v)						\

     do									\

     {									\

 	uint32_t  *__d = ((uint32_t *)(l)) + ((o) >> 5);		\

 	uint32_t __m, __v;						\

 									\

 	__m = 1 << (0x1f - ((o) & 0x1f));				\

 	__v = (v)? __m : 0;						\

 									\

 	WRITE((img), __d, (READ((img), __d) & ~__m) | __v);		\

     }									\

     while (0)

 #else

 #define STORE_1(img,l,o,v)						\

     do									\

     {									\

 	uint32_t  *__d = ((uint32_t *)(l)) + ((o) >> 5);		\

 	uint32_t __m, __v;						\

 									\

 	__m = 1 << ((o) & 0x1f);					\

 	__v = (v)? __m : 0;						\

 									\

 	WRITE((img), __d, (READ((img), __d) & ~__m) | __v);		\

     }									\

     while (0)

 #endif

 #define STORE_8(img,l,o,v)  (WRITE (img, (uint8_t *)(l) + ((o) >> 3), (v)))

 #ifdef WORDS_BIGENDIAN

 #define STORE_4(img,l,o,v)						\

     do									\

     {									\

 	int bo = 4 * (o);						\

 	int v4 = (v) & 0x0f;						\

 									\

 	STORE_8 (img, l, bo, (						\

 		     bo & 4 ?						\

 		     (FETCH_8 (img, l, bo) & 0xf0) | (v4) :		\

 		     (FETCH_8 (img, l, bo) & 0x0f) | (v4 << 4)));	\

     } while (0)

 #else

 #define STORE_4(img,l,o,v)						\

     do									\

     {									\

 	int bo = 4 * (o);						\

 	int v4 = (v) & 0x0f;						\

 									\

 	STORE_8 (img, l, bo, (						\

 		     bo & 4 ?						\

 		     (FETCH_8 (img, l, bo) & 0x0f) | (v4 << 4) :	\

 		     (FETCH_8 (img, l, bo) & 0xf0) | (v4)));		\

     } while (0)

 #endif

 #ifdef WORDS_BIGENDIAN

 #define STORE_24(img,l,o,v)                                            \

     do                                                                 \

     {                                                                  \

 	uint8_t *__tmp = (l) + 3 * (o);				       \

         							       \

 	WRITE ((img), __tmp++, ((v) & 0x00ff0000) >> 16);	       \

 	WRITE ((img), __tmp++, ((v) & 0x0000ff00) >>  8);	       \

 	WRITE ((img), __tmp++, ((v) & 0x000000ff) >>  0);	       \

     }                                                                  \

     while (0)

 #else

 #define STORE_24(img,l,o,v)                                            \

     do                                                                 \

     {                                                                  \

 	uint8_t *__tmp = (l) + 3 * (o);				       \

         							       \

 	WRITE ((img), __tmp++, ((v) & 0x000000ff) >>  0);	       \

 	WRITE ((img), __tmp++, ((v) & 0x0000ff00) >>  8);	       \

 	WRITE ((img), __tmp++, ((v) & 0x00ff0000) >> 16);	       \

     }								       \

     while (0)

 #endif

 /*

  * YV12 setup and access macros

  */

 #define YV12_SETUP(image)                                               \

     bits_image_t *__bits_image = (bits_image_t *)image;                 \

     uint32_t *bits = __bits_image->bits;                                \

     int stride = __bits_image->rowstride;                               \

     int offset0 = stride < 0 ?                                          \

     ((-stride) >> 1) * ((__bits_image->height - 1) >> 1) - stride :	\

     stride * __bits_image->height;					\

     int offset1 = stride < 0 ?                                          \

     offset0 + ((-stride) >> 1) * ((__bits_image->height) >> 1) :	\

 	offset0 + (offset0 >> 2)

 /* Note no trailing semicolon on the above macro; if it's there, then

  * the typical usage of YV12_SETUP(image); will have an extra trailing ;

  * that some compilers will interpret as a statement -- and then any further

  * variable declarations will cause an error.

  */

 #define YV12_Y(line)                                                    \

     ((uint8_t *) ((bits) + (stride) * (line)))

 #define YV12_U(line)                                                    \

     ((uint8_t *) ((bits) + offset1 +                                    \

                   ((stride) >> 1) * ((line) >> 1)))

 #define YV12_V(line)                                                    \

     ((uint8_t *) ((bits) + offset0 +                                    \

                   ((stride) >> 1) * ((line) >> 1)))

 /* Misc. helpers */

 static force_inline void

 get_shifts (pixman_format_code_t  format,

 	    int			 *a,

 	    int			 *r,

 	    int                  *g,

 	    int                  *b)

 {

     switch (PIXMAN_FORMAT_TYPE (format))

     {

     case PIXMAN_TYPE_A:

 	*b = 0;

 	*g = 0;

 	*r = 0;

 	*a = 0;

 	break;

     case PIXMAN_TYPE_ARGB:

     case PIXMAN_TYPE_ARGB_SRGB:

 	*b = 0;

 	*g = *b + PIXMAN_FORMAT_B (format);

 	*r = *g + PIXMAN_FORMAT_G (format);

 	*a = *r + PIXMAN_FORMAT_R (format);

 	break;

     case PIXMAN_TYPE_ABGR:

 	*r = 0;

 	*g = *r + PIXMAN_FORMAT_R (format);

 	*b = *g + PIXMAN_FORMAT_G (format);

 	*a = *b + PIXMAN_FORMAT_B (format);

 	break;

     case PIXMAN_TYPE_BGRA:

 	/* With BGRA formats we start counting at the high end of the pixel */

 	*b = PIXMAN_FORMAT_BPP (format) - PIXMAN_FORMAT_B (format);

 	*g = *b - PIXMAN_FORMAT_B (format);

 	*r = *g - PIXMAN_FORMAT_G (format);

 	*a = *r - PIXMAN_FORMAT_R (format);

 	break;

     case PIXMAN_TYPE_RGBA:

 	/* With BGRA formats we start counting at the high end of the pixel */

 	*r = PIXMAN_FORMAT_BPP (format) - PIXMAN_FORMAT_R (format);

 	*g = *r - PIXMAN_FORMAT_R (format);

 	*b = *g - PIXMAN_FORMAT_G (format);

 	*a = *b - PIXMAN_FORMAT_B (format);

 	break;

     default:

 	assert (0);

 	break;

     }

 }

 static force_inline uint32_t

 convert_channel (uint32_t pixel, uint32_t def_value,

 		 int n_from_bits, int from_shift,

 		 int n_to_bits, int to_shift)

 {

     uint32_t v;

     if (n_from_bits && n_to_bits)

 	v  = unorm_to_unorm (pixel >> from_shift, n_from_bits, n_to_bits);

     else if (n_to_bits)

 	v = def_value;

     else

 	v = 0;

     return (v & ((1 << n_to_bits) - 1)) << to_shift;

 }

 static force_inline uint32_t

 convert_pixel (pixman_format_code_t from, pixman_format_code_t to, uint32_t pixel)

 {

     int a_from_shift, r_from_shift, g_from_shift, b_from_shift;

     int a_to_shift, r_to_shift, g_to_shift, b_to_shift;

     uint32_t a, r, g, b;

     get_shifts (from, &a_from_shift, &r_from_shift, &g_from_shift, &b_from_shift);

     get_shifts (to, &a_to_shift, &r_to_shift, &g_to_shift, &b_to_shift);

     a = convert_channel (pixel, ~0,

 			 PIXMAN_FORMAT_A (from), a_from_shift,

 			 PIXMAN_FORMAT_A (to), a_to_shift);

     r = convert_channel (pixel, 0,

 			 PIXMAN_FORMAT_R (from), r_from_shift,

 			 PIXMAN_FORMAT_R (to), r_to_shift);

     g = convert_channel (pixel, 0,

 			 PIXMAN_FORMAT_G (from), g_from_shift,

 			 PIXMAN_FORMAT_G (to), g_to_shift);

     b = convert_channel (pixel, 0,

 			 PIXMAN_FORMAT_B (from), b_from_shift,

 			 PIXMAN_FORMAT_B (to), b_to_shift);

     return a | r | g | b;

 }

 static force_inline uint32_t

 convert_pixel_to_a8r8g8b8 (pixman_image_t *image,

 			   pixman_format_code_t format,

 			   uint32_t pixel)

 {

     if (PIXMAN_FORMAT_TYPE (format) == PIXMAN_TYPE_GRAY		||

 	PIXMAN_FORMAT_TYPE (format) == PIXMAN_TYPE_COLOR)

     {

 	return image->bits.indexed->rgba[pixel];

     }

     else

     {

 	return convert_pixel (format, PIXMAN_a8r8g8b8, pixel);

     }

 }

 static force_inline uint32_t

 convert_pixel_from_a8r8g8b8 (pixman_image_t *image,

 			     pixman_format_code_t format, uint32_t pixel)

 {

     if (PIXMAN_FORMAT_TYPE (format) == PIXMAN_TYPE_GRAY)

     {

 	pixel = CONVERT_RGB24_TO_Y15 (pixel);

 	return image->bits.indexed->ent[pixel & 0x7fff];

     }

     else if (PIXMAN_FORMAT_TYPE (format) == PIXMAN_TYPE_COLOR)

     {

 	pixel = convert_pixel (PIXMAN_a8r8g8b8, PIXMAN_x1r5g5b5, pixel);

 	return image->bits.indexed->ent[pixel & 0x7fff];

     }

     else

     {

 	return convert_pixel (PIXMAN_a8r8g8b8, format, pixel);

     }

 }

 static force_inline uint32_t

 fetch_and_convert_pixel (pixman_image_t	*	image,

 			 const uint8_t *	bits,

 			 int			offset,

 			 pixman_format_code_t	format)

 {

     uint32_t pixel;

     switch (PIXMAN_FORMAT_BPP (format))

     {

     case 1:

 	pixel = FETCH_1 (image, bits, offset);

 	break;

     case 4:

 	pixel = FETCH_4 (image, bits, offset);

 	break;

     case 8:

 	pixel = READ (image, bits + offset);

 	break;

     case 16:

 	pixel = READ (image, ((uint16_t *)bits + offset));

 	break;

     case 24:

 	pixel = FETCH_24 (image, bits, offset);

 	break;

     case 32:

 	pixel = READ (image, ((uint32_t *)bits + offset));

 	break;

     default:

 	pixel = 0xffff00ff; /* As ugly as possible to detect the bug */

 	break;

     }

     return convert_pixel_to_a8r8g8b8 (image, format, pixel);

 }

 static force_inline void

 convert_and_store_pixel (bits_image_t *		image,

 			 uint8_t *		dest,

 			 int                    offset,

 			 pixman_format_code_t	format,

 			 uint32_t		pixel)

 {

     uint32_t converted = convert_pixel_from_a8r8g8b8 (

 	(pixman_image_t *)image, format, pixel);

     switch (PIXMAN_FORMAT_BPP (format))

     {

     case 1:

 	STORE_1 (image, dest, offset, converted & 0x01);

 	break;

     case 4:

 	STORE_4 (image, dest, offset, converted & 0xf);

 	break;

     case 8:

 	WRITE (image, (dest + offset), converted & 0xff);

 	break;

     case 16:

 	WRITE (image, ((uint16_t *)dest + offset), converted & 0xffff);

 	break;

     case 24:

 	STORE_24 (image, dest, offset, converted);

 	break;

     case 32:

 	WRITE (image, ((uint32_t *)dest + offset), converted);

 	break;

     default:

 	*dest = 0x0;

 	break;

     }

 }

 #define MAKE_ACCESSORS(format)						\

     static void								\

     fetch_scanline_ ## format (pixman_image_t *image,			\

 			       int	       x,			\

 			       int             y,			\

 			       int             width,			\

 			       uint32_t *      buffer,			\

 			       const uint32_t *mask)			\

     {									\

 	uint8_t *bits =							\

 	    (uint8_t *)(image->bits.bits + y * image->bits.rowstride);	\

 	int i;								\

 									\

 	for (i = 0; i < width; ++i)					\

 	{								\

 	    *buffer++ =							\

 		fetch_and_convert_pixel (image, bits, x + i, PIXMAN_ ## format); \

 	}								\

     }									\

 									\

     static void								\

     store_scanline_ ## format (bits_image_t *  image,			\

 			       int             x,			\

 			       int             y,			\

 			       int             width,			\

 			       const uint32_t *values)			\

     {									\

 	uint8_t *dest =							\

 	    (uint8_t *)(image->bits + y * image->rowstride);		\

 	int i;								\

 									\

 	for (i = 0; i < width; ++i)					\

 	{								\

 	    convert_and_store_pixel (					\

 		image, dest, i + x, PIXMAN_ ## format, values[i]);	\

 	}								\

     }									\

 									\

     static uint32_t							\

     fetch_pixel_ ## format (bits_image_t *image,			\

 			    int		offset,				\

 			    int		line)				\

     {									\

 	uint8_t *bits =							\

 	    (uint8_t *)(image->bits + line * image->rowstride);		\

 									\

 	return fetch_and_convert_pixel ((pixman_image_t *)image,	\

 					bits, offset, PIXMAN_ ## format); \

     }									\

 									\

     static const void *const __dummy__ ## format

 MAKE_ACCESSORS(a8r8g8b8);

 MAKE_ACCESSORS(x8r8g8b8);

 MAKE_ACCESSORS(a8b8g8r8);

 MAKE_ACCESSORS(x8b8g8r8);

 MAKE_ACCESSORS(x14r6g6b6);

 MAKE_ACCESSORS(b8g8r8a8);

 MAKE_ACCESSORS(b8g8r8x8);

 MAKE_ACCESSORS(r8g8b8x8);

 MAKE_ACCESSORS(r8g8b8a8);

 MAKE_ACCESSORS(r8g8b8);

 MAKE_ACCESSORS(b8g8r8);

 MAKE_ACCESSORS(r5g6b5);

 MAKE_ACCESSORS(b5g6r5);

 MAKE_ACCESSORS(a1r5g5b5);

 MAKE_ACCESSORS(x1r5g5b5);

 MAKE_ACCESSORS(a1b5g5r5);

 MAKE_ACCESSORS(x1b5g5r5);

 MAKE_ACCESSORS(a4r4g4b4);

 MAKE_ACCESSORS(x4r4g4b4);

 MAKE_ACCESSORS(a4b4g4r4);

 MAKE_ACCESSORS(x4b4g4r4);

 MAKE_ACCESSORS(a8);

 MAKE_ACCESSORS(c8);

 MAKE_ACCESSORS(g8);

 MAKE_ACCESSORS(r3g3b2);

 MAKE_ACCESSORS(b2g3r3);

 MAKE_ACCESSORS(a2r2g2b2);

 MAKE_ACCESSORS(a2b2g2r2);

 MAKE_ACCESSORS(x4a4);

 MAKE_ACCESSORS(a4);

 MAKE_ACCESSORS(g4);

 MAKE_ACCESSORS(c4);

 MAKE_ACCESSORS(r1g2b1);

 MAKE_ACCESSORS(b1g2r1);

 MAKE_ACCESSORS(a1r1g1b1);

 MAKE_ACCESSORS(a1b1g1r1);

 MAKE_ACCESSORS(a1);

 MAKE_ACCESSORS(g1);

 /********************************** Fetch ************************************/

 /* Table mapping sRGB-encoded 8 bit numbers to linearly encoded

  * floating point numbers. We assume that single precision

  * floating point follows the IEEE 754 format.

  */

 static const uint32_t to_linear_u[256] =

 {

     0x00000000, 0x399f22b4, 0x3a1f22b4, 0x3a6eb40e, 0x3a9f22b4, 0x3ac6eb61,

     0x3aeeb40e, 0x3b0b3e5d, 0x3b1f22b4, 0x3b33070b, 0x3b46eb61, 0x3b5b518a,

     0x3b70f18a, 0x3b83e1c5, 0x3b8fe614, 0x3b9c87fb, 0x3ba9c9b5, 0x3bb7ad6d,

     0x3bc63547, 0x3bd5635f, 0x3be539bd, 0x3bf5ba70, 0x3c0373b5, 0x3c0c6152,

     0x3c15a703, 0x3c1f45bc, 0x3c293e68, 0x3c3391f4, 0x3c3e4149, 0x3c494d43,

     0x3c54b6c7, 0x3c607eb1, 0x3c6ca5df, 0x3c792d22, 0x3c830aa8, 0x3c89af9e,

     0x3c9085db, 0x3c978dc5, 0x3c9ec7c0, 0x3ca63432, 0x3cadd37d, 0x3cb5a601,

     0x3cbdac20, 0x3cc5e639, 0x3cce54ab, 0x3cd6f7d2, 0x3cdfd00e, 0x3ce8ddb9,

     0x3cf2212c, 0x3cfb9ac1, 0x3d02a569, 0x3d0798dc, 0x3d0ca7e4, 0x3d11d2ae,

     0x3d171963, 0x3d1c7c2e, 0x3d21fb3a, 0x3d2796af, 0x3d2d4ebb, 0x3d332380,

     0x3d39152b, 0x3d3f23e3, 0x3d454fd0, 0x3d4b991c, 0x3d51ffeb, 0x3d588466,

     0x3d5f26b7, 0x3d65e6fe, 0x3d6cc564, 0x3d73c210, 0x3d7add25, 0x3d810b65,

     0x3d84b793, 0x3d88732e, 0x3d8c3e48, 0x3d9018f4, 0x3d940343, 0x3d97fd48,

     0x3d9c0714, 0x3da020b9, 0x3da44a48, 0x3da883d6, 0x3daccd70, 0x3db12728,

     0x3db59110, 0x3dba0b38, 0x3dbe95b2, 0x3dc3308f, 0x3dc7dbe0, 0x3dcc97b4,

     0x3dd1641c, 0x3dd6412a, 0x3ddb2eec, 0x3de02d75, 0x3de53cd3, 0x3dea5d16,

     0x3def8e52, 0x3df4d091, 0x3dfa23e5, 0x3dff885e, 0x3e027f06, 0x3e05427f,

     0x3e080ea2, 0x3e0ae376, 0x3e0dc104, 0x3e10a752, 0x3e139669, 0x3e168e50,

     0x3e198f0e, 0x3e1c98ab, 0x3e1fab2e, 0x3e22c6a0, 0x3e25eb08, 0x3e29186a,

     0x3e2c4ed0, 0x3e2f8e42, 0x3e32d6c4, 0x3e362861, 0x3e39831e, 0x3e3ce702,

     0x3e405416, 0x3e43ca5e, 0x3e4749e4, 0x3e4ad2ae, 0x3e4e64c2, 0x3e520027,

     0x3e55a4e6, 0x3e595303, 0x3e5d0a8a, 0x3e60cb7c, 0x3e6495e0, 0x3e6869bf,

     0x3e6c4720, 0x3e702e08, 0x3e741e7f, 0x3e78188c, 0x3e7c1c34, 0x3e8014c0,

     0x3e822039, 0x3e84308b, 0x3e8645b8, 0x3e885fc3, 0x3e8a7eb0, 0x3e8ca281,

     0x3e8ecb3a, 0x3e90f8df, 0x3e932b72, 0x3e9562f6, 0x3e979f6f, 0x3e99e0e0,

     0x3e9c274e, 0x3e9e72b8, 0x3ea0c322, 0x3ea31892, 0x3ea57308, 0x3ea7d28a,

     0x3eaa3718, 0x3eaca0b7, 0x3eaf0f69, 0x3eb18332, 0x3eb3fc16, 0x3eb67a15,

     0x3eb8fd34, 0x3ebb8576, 0x3ebe12de, 0x3ec0a56e, 0x3ec33d2a, 0x3ec5da14,

     0x3ec87c30, 0x3ecb2380, 0x3ecdd008, 0x3ed081ca, 0x3ed338c9, 0x3ed5f508,

     0x3ed8b68a, 0x3edb7d52, 0x3ede4962, 0x3ee11abe, 0x3ee3f168, 0x3ee6cd64,

     0x3ee9aeb6, 0x3eec955d, 0x3eef815d, 0x3ef272ba, 0x3ef56976, 0x3ef86594,

     0x3efb6717, 0x3efe6e02, 0x3f00bd2b, 0x3f02460c, 0x3f03d1a5, 0x3f055ff8,

     0x3f06f105, 0x3f0884ce, 0x3f0a1b54, 0x3f0bb499, 0x3f0d509f, 0x3f0eef65,

     0x3f1090ef, 0x3f12353c, 0x3f13dc50, 0x3f15862a, 0x3f1732cc, 0x3f18e237,

     0x3f1a946d, 0x3f1c4970, 0x3f1e013f, 0x3f1fbbde, 0x3f21794c, 0x3f23398c,

     0x3f24fca0, 0x3f26c286, 0x3f288b42, 0x3f2a56d3, 0x3f2c253d, 0x3f2df680,

     0x3f2fca9d, 0x3f31a195, 0x3f337b6a, 0x3f35581e, 0x3f3737b1, 0x3f391a24,

     0x3f3aff7a, 0x3f3ce7b2, 0x3f3ed2d0, 0x3f40c0d2, 0x3f42b1bc, 0x3f44a58e,

     0x3f469c49, 0x3f4895ee, 0x3f4a9280, 0x3f4c91ff, 0x3f4e946c, 0x3f5099c8,

     0x3f52a216, 0x3f54ad55, 0x3f56bb88, 0x3f58ccae, 0x3f5ae0cb, 0x3f5cf7de,

     0x3f5f11ec, 0x3f612ef0, 0x3f634eef, 0x3f6571ea, 0x3f6797e1, 0x3f69c0d6,

     0x3f6beccb, 0x3f6e1bc0, 0x3f704db6, 0x3f7282af, 0x3f74baac, 0x3f76f5ae,

     0x3f7933b6, 0x3f7b74c6, 0x3f7db8de, 0x3f800000

 };

 static const float * const to_linear = (const float *)to_linear_u;

 static uint8_t

 to_srgb (float f)

 {

     uint8_t low = 0;

     uint8_t high = 255;

     while (high - low > 1)

     {

 	uint8_t mid = (low + high) / 2;

 	if (to_linear[mid] > f)

 	    high = mid;

 	else

 	    low = mid;

     }

     if (to_linear[high] - f < f - to_linear[low])

 	return high;

     else

 	return low;

 }

 static void

 fetch_scanline_a8r8g8b8_sRGB_float (pixman_image_t *image,

 				    int             x,

 				    int             y,

 				    int             width,

 				    uint32_t *      b,

 				    const uint32_t *mask)

 {

     const uint32_t *bits = image->bits.bits + y * image->bits.rowstride;

     const uint32_t *pixel = bits + x;

     const uint32_t *end = pixel + width;

     argb_t *buffer = (argb_t *)b;

     while (pixel < end)

     {

 	uint32_t p = READ (image, pixel++);

 	argb_t *argb = buffer;

 	argb->a = pixman_unorm_to_float ((p >> 24) & 0xff, 8);

 	argb->r = to_linear [(p >> 16) & 0xff];

 	argb->g = to_linear [(p >>  8) & 0xff];

 	argb->b = to_linear [(p >>  0) & 0xff];

 	buffer++;

     }

 }

 /* Expects a float buffer */

 static void

 fetch_scanline_a2r10g10b10_float (pixman_image_t *image,

 				  int             x,

 				  int             y,

 				  int             width,

 				  uint32_t *      b,

 				  const uint32_t *mask)

 {

     const uint32_t *bits = image->bits.bits + y * image->bits.rowstride;

     const uint32_t *pixel = bits + x;

     const uint32_t *end = pixel + width;

     argb_t *buffer = (argb_t *)b;

     while (pixel < end)

     {

 	uint32_t p = READ (image, pixel++);

 	uint64_t a = p >> 30;

 	uint64_t r = (p >> 20) & 0x3ff;

 	uint64_t g = (p >> 10) & 0x3ff;

 	uint64_t b = p & 0x3ff;

 	buffer->a = pixman_unorm_to_float (a, 2);

 	buffer->r = pixman_unorm_to_float (r, 10);

 	buffer->g = pixman_unorm_to_float (g, 10);

 	buffer->b = pixman_unorm_to_float (b, 10);

 	buffer++;

     }

 }

 /* Expects a float buffer */

 static void

 fetch_scanline_x2r10g10b10_float (pixman_image_t *image,

 				  int             x,

 				  int             y,

 				  int             width,

 				  uint32_t *      b,

 				  const uint32_t *mask)

 {

     const uint32_t *bits = image->bits.bits + y * image->bits.rowstride;

     const uint32_t *pixel = (uint32_t *)bits + x;

     const uint32_t *end = pixel + width;

     argb_t *buffer = (argb_t *)b;

     while (pixel < end)

     {

 	uint32_t p = READ (image, pixel++);

 	uint64_t r = (p >> 20) & 0x3ff;

 	uint64_t g = (p >> 10) & 0x3ff;

 	uint64_t b = p & 0x3ff;

 	buffer->a = 1.0;

 	buffer->r = pixman_unorm_to_float (r, 10);

 	buffer->g = pixman_unorm_to_float (g, 10);

 	buffer->b = pixman_unorm_to_float (b, 10);

 	buffer++;

     }

 }

 /* Expects a float buffer */

 static void

 fetch_scanline_a2b10g10r10_float (pixman_image_t *image,

 				  int             x,

 				  int             y,

 				  int             width,

 				  uint32_t *      b,

 				  const uint32_t *mask)

 {

     const uint32_t *bits = image->bits.bits + y * image->bits.rowstride;

     const uint32_t *pixel = bits + x;

     const uint32_t *end = pixel + width;

     argb_t *buffer = (argb_t *)b;

     while (pixel < end)

     {

 	uint32_t p = READ (image, pixel++);

 	uint64_t a = p >> 30;

 	uint64_t b = (p >> 20) & 0x3ff;

 	uint64_t g = (p >> 10) & 0x3ff;

 	uint64_t r = p & 0x3ff;

 	buffer->a = pixman_unorm_to_float (a, 2);

 	buffer->r = pixman_unorm_to_float (r, 10);

 	buffer->g = pixman_unorm_to_float (g, 10);

 	buffer->b = pixman_unorm_to_float (b, 10);

 	buffer++;

     }

 }

 /* Expects a float buffer */

 static void

 fetch_scanline_x2b10g10r10_float (pixman_image_t *image,

 				  int             x,

 				  int             y,

 				  int             width,

 				  uint32_t *      b,

 				  const uint32_t *mask)

 {

     const uint32_t *bits = image->bits.bits + y * image->bits.rowstride;

     const uint32_t *pixel = (uint32_t *)bits + x;

     const uint32_t *end = pixel + width;

     argb_t *buffer = (argb_t *)b;

     while (pixel < end)

     {

 	uint32_t p = READ (image, pixel++);

 	uint64_t b = (p >> 20) & 0x3ff;

 	uint64_t g = (p >> 10) & 0x3ff;

 	uint64_t r = p & 0x3ff;

 	buffer->a = 1.0;

 	buffer->r = pixman_unorm_to_float (r, 10);

 	buffer->g = pixman_unorm_to_float (g, 10);

 	buffer->b = pixman_unorm_to_float (b, 10);

 	buffer++;

     }

 }

 static void

 fetch_scanline_yuy2 (pixman_image_t *image,

                      int             x,

                      int             line,

                      int             width,

                      uint32_t *      buffer,

                      const uint32_t *mask)

 {

     const uint32_t *bits = image->bits.bits + image->bits.rowstride * line;

     int i;

     for (i = 0; i < width; i++)

     {

 	int16_t y, u, v;

 	int32_t r, g, b;

 	y = ((uint8_t *) bits)[(x + i) << 1] - 16;

 	u = ((uint8_t *) bits)[(((x + i) << 1) & - 4) + 1] - 128;

 	v = ((uint8_t *) bits)[(((x + i) << 1) & - 4) + 3] - 128;

 	/* R = 1.164(Y - 16) + 1.596(V - 128) */

 	r = 0x012b27 * y + 0x019a2e * v;

 	/* G = 1.164(Y - 16) - 0.813(V - 128) - 0.391(U - 128) */

 	g = 0x012b27 * y - 0x00d0f2 * v - 0x00647e * u;

 	/* B = 1.164(Y - 16) + 2.018(U - 128) */

 	b = 0x012b27 * y + 0x0206a2 * u;

 	*buffer++ = 0xff000000 |

 	    (r >= 0 ? r < 0x1000000 ? r         & 0xff0000 : 0xff0000 : 0) |

 	    (g >= 0 ? g < 0x1000000 ? (g >> 8)  & 0x00ff00 : 0x00ff00 : 0) |

 	    (b >= 0 ? b < 0x1000000 ? (b >> 16) & 0x0000ff : 0x0000ff : 0);

     }

 }

 static void

 fetch_scanline_yv12 (pixman_image_t *image,

                      int             x,

                      int             line,

                      int             width,

                      uint32_t *      buffer,

                      const uint32_t *mask)

 {

     YV12_SETUP (image);

     uint8_t *y_line = YV12_Y (line);

     uint8_t *u_line = YV12_U (line);

     uint8_t *v_line = YV12_V (line);

     int i;

     for (i = 0; i < width; i++)

     {

 	int16_t y, u, v;

 	int32_t r, g, b;

 	y = y_line[x + i] - 16;

 	u = u_line[(x + i) >> 1] - 128;

 	v = v_line[(x + i) >> 1] - 128;

 	/* R = 1.164(Y - 16) + 1.596(V - 128) */

 	r = 0x012b27 * y + 0x019a2e * v;

 	/* G = 1.164(Y - 16) - 0.813(V - 128) - 0.391(U - 128) */

 	g = 0x012b27 * y - 0x00d0f2 * v - 0x00647e * u;

 	/* B = 1.164(Y - 16) + 2.018(U - 128) */

 	b = 0x012b27 * y + 0x0206a2 * u;

 	*buffer++ = 0xff000000 |

 	    (r >= 0 ? r < 0x1000000 ? r         & 0xff0000 : 0xff0000 : 0) |

 	    (g >= 0 ? g < 0x1000000 ? (g >> 8)  & 0x00ff00 : 0x00ff00 : 0) |

 	    (b >= 0 ? b < 0x1000000 ? (b >> 16) & 0x0000ff : 0x0000ff : 0);

     }

 }

 /**************************** Pixel wise fetching *****************************/

 static argb_t

 fetch_pixel_x2r10g10b10_float (bits_image_t *image,

 			       int	   offset,

 			       int           line)

 {

     uint32_t *bits = image->bits + line * image->rowstride;

     uint32_t p = READ (image, bits + offset);

     uint64_t r = (p >> 20) & 0x3ff;

     uint64_t g = (p >> 10) & 0x3ff;

     uint64_t b = p & 0x3ff;

     argb_t argb;

     argb.a = 1.0;

     argb.r = pixman_unorm_to_float (r, 10);

     argb.g = pixman_unorm_to_float (g, 10);

     argb.b = pixman_unorm_to_float (b, 10);

     return argb;

 }

 static argb_t

 fetch_pixel_a2r10g10b10_float (bits_image_t *image,

 			       int	     offset,

 			       int           line)

 {

     uint32_t *bits = image->bits + line * image->rowstride;

     uint32_t p = READ (image, bits + offset);

     uint64_t a = p >> 30;

     uint64_t r = (p >> 20) & 0x3ff;

     uint64_t g = (p >> 10) & 0x3ff;

     uint64_t b = p & 0x3ff;

     argb_t argb;

     argb.a = pixman_unorm_to_float (a, 2);

     argb.r = pixman_unorm_to_float (r, 10);

     argb.g = pixman_unorm_to_float (g, 10);

     argb.b = pixman_unorm_to_float (b, 10);

     return argb;

 }

 static argb_t

 fetch_pixel_a2b10g10r10_float (bits_image_t *image,

 			       int           offset,

 			       int           line)

 {

     uint32_t *bits = image->bits + line * image->rowstride;

     uint32_t p = READ (image, bits + offset);

     uint64_t a = p >> 30;

     uint64_t b = (p >> 20) & 0x3ff;

     uint64_t g = (p >> 10) & 0x3ff;

     uint64_t r = p & 0x3ff;

     argb_t argb;

     argb.a = pixman_unorm_to_float (a, 2);

     argb.r = pixman_unorm_to_float (r, 10);

     argb.g = pixman_unorm_to_float (g, 10);

     argb.b = pixman_unorm_to_float (b, 10);

     return argb;

 }

 static argb_t

 fetch_pixel_x2b10g10r10_float (bits_image_t *image,

 			       int           offset,

 			       int           line)

 {

     uint32_t *bits = image->bits + line * image->rowstride;

     uint32_t p = READ (image, bits + offset);

     uint64_t b = (p >> 20) & 0x3ff;

     uint64_t g = (p >> 10) & 0x3ff;

     uint64_t r = p & 0x3ff;

     argb_t argb;

     argb.a = 1.0;

     argb.r = pixman_unorm_to_float (r, 10);

     argb.g = pixman_unorm_to_float (g, 10);

     argb.b = pixman_unorm_to_float (b, 10);

     return argb;

 }

 static argb_t

 fetch_pixel_a8r8g8b8_sRGB_float (bits_image_t *image,

 				 int	       offset,

 				 int           line)

 {

     uint32_t *bits = image->bits + line * image->rowstride;

     uint32_t p = READ (image, bits + offset);

     argb_t argb;

     argb.a = pixman_unorm_to_float ((p >> 24) & 0xff, 8);

     argb.r = to_linear [(p >> 16) & 0xff];

     argb.g = to_linear [(p >>  8) & 0xff];

     argb.b = to_linear [(p >>  0) & 0xff];

     return argb;

 }

 static uint32_t

 fetch_pixel_yuy2 (bits_image_t *image,

 		  int           offset,

 		  int           line)

 {

     const uint32_t *bits = image->bits + image->rowstride * line;

     int16_t y, u, v;

     int32_t r, g, b;

     y = ((uint8_t *) bits)[offset << 1] - 16;

     u = ((uint8_t *) bits)[((offset << 1) & - 4) + 1] - 128;

     v = ((uint8_t *) bits)[((offset << 1) & - 4) + 3] - 128;

     /* R = 1.164(Y - 16) + 1.596(V - 128) */

     r = 0x012b27 * y + 0x019a2e * v;

     /* G = 1.164(Y - 16) - 0.813(V - 128) - 0.391(U - 128) */

     g = 0x012b27 * y - 0x00d0f2 * v - 0x00647e * u;

     /* B = 1.164(Y - 16) + 2.018(U - 128) */

     b = 0x012b27 * y + 0x0206a2 * u;

     return 0xff000000 |

 	(r >= 0 ? r < 0x1000000 ? r         & 0xff0000 : 0xff0000 : 0) |

 	(g >= 0 ? g < 0x1000000 ? (g >> 8)  & 0x00ff00 : 0x00ff00 : 0) |

 	(b >= 0 ? b < 0x1000000 ? (b >> 16) & 0x0000ff : 0x0000ff : 0);

 }

 static uint32_t

 fetch_pixel_yv12 (bits_image_t *image,

 		  int           offset,

 		  int           line)

 {

     YV12_SETUP (image);

     int16_t y = YV12_Y (line)[offset] - 16;

     int16_t u = YV12_U (line)[offset >> 1] - 128;

     int16_t v = YV12_V (line)[offset >> 1] - 128;

     int32_t r, g, b;

     /* R = 1.164(Y - 16) + 1.596(V - 128) */

     r = 0x012b27 * y + 0x019a2e * v;

     /* G = 1.164(Y - 16) - 0.813(V - 128) - 0.391(U - 128) */

     g = 0x012b27 * y - 0x00d0f2 * v - 0x00647e * u;

     /* B = 1.164(Y - 16) + 2.018(U - 128) */

     b = 0x012b27 * y + 0x0206a2 * u;

     return 0xff000000 |

 	(r >= 0 ? r < 0x1000000 ? r         & 0xff0000 : 0xff0000 : 0) |

 	(g >= 0 ? g < 0x1000000 ? (g >> 8)  & 0x00ff00 : 0x00ff00 : 0) |

 	(b >= 0 ? b < 0x1000000 ? (b >> 16) & 0x0000ff : 0x0000ff : 0);

 }

 /*********************************** Store ************************************/

 static void

 store_scanline_a2r10g10b10_float (bits_image_t *  image,

 				  int             x,

 				  int             y,

 				  int             width,

 				  const uint32_t *v)

 {

     uint32_t *bits = image->bits + image->rowstride * y;

     uint32_t *pixel = bits + x;

     argb_t *values = (argb_t *)v;

     int i;

     for (i = 0; i < width; ++i)

     {

 	uint16_t a, r, g, b;

 	a = pixman_float_to_unorm (values[i].a, 2);

 	r = pixman_float_to_unorm (values[i].r, 10);

 	g = pixman_float_to_unorm (values[i].g, 10);

 	b = pixman_float_to_unorm (values[i].b, 10);

 	WRITE (image, pixel++,

 	       (a << 30) | (r << 20) | (g << 10) | b);

     }

 }

 static void

 store_scanline_x2r10g10b10_float (bits_image_t *  image,

 				  int             x,

 				  int             y,

 				  int             width,

 				  const uint32_t *v)

 {

     uint32_t *bits = image->bits + image->rowstride * y;

     uint32_t *pixel = bits + x;

     argb_t *values = (argb_t *)v;

     int i;

     for (i = 0; i < width; ++i)

     {

 	uint16_t r, g, b;

 	r = pixman_float_to_unorm (values[i].r, 10);

 	g = pixman_float_to_unorm (values[i].g, 10);

 	b = pixman_float_to_unorm (values[i].b, 10);

 	WRITE (image, pixel++,

 	       (r << 20) | (g << 10) | b);

     }

 }

 static void

 store_scanline_a2b10g10r10_float (bits_image_t *  image,

 				  int             x,

 				  int             y,

 				  int             width,

 				  const uint32_t *v)

 {

     uint32_t *bits = image->bits + image->rowstride * y;

     uint32_t *pixel = bits + x;

     argb_t *values = (argb_t *)v;

     int i;

     for (i = 0; i < width; ++i)

     {

 	uint16_t a, r, g, b;

 	a = pixman_float_to_unorm (values[i].a, 2);

 	r = pixman_float_to_unorm (values[i].r, 10);

 	g = pixman_float_to_unorm (values[i].g, 10);

 	b = pixman_float_to_unorm (values[i].b, 10);

 	WRITE (image, pixel++,

 	       (a << 30) | (b << 20) | (g << 10) | r);

     }

 }

 static void

 store_scanline_x2b10g10r10_float (bits_image_t *  image,

 				  int             x,

 				  int             y,

 				  int             width,

 				  const uint32_t *v)

 {

     uint32_t *bits = image->bits + image->rowstride * y;

     uint32_t *pixel = bits + x;

     argb_t *values = (argb_t *)v;

     int i;

     for (i = 0; i < width; ++i)

     {

 	uint16_t r, g, b;

 	r = pixman_float_to_unorm (values[i].r, 10);

 	g = pixman_float_to_unorm (values[i].g, 10);

 	b = pixman_float_to_unorm (values[i].b, 10);

 	WRITE (image, pixel++,

 	       (b << 20) | (g << 10) | r);

     }

 }

 static void

 store_scanline_a8r8g8b8_sRGB_float (bits_image_t *  image,

 				    int             x,

 				    int             y,

 				    int             width,

 				    const uint32_t *v)

 {

     uint32_t *bits = image->bits + image->rowstride * y;

     uint32_t *pixel = bits + x;

     argb_t *values = (argb_t *)v;

     int i;

     for (i = 0; i < width; ++i)

     {

 	uint8_t a, r, g, b;

 	a = pixman_float_to_unorm (values[i].a, 8);

 	r = to_srgb (values[i].r);

 	g = to_srgb (values[i].g);

 	b = to_srgb (values[i].b);

 	WRITE (image, pixel++,

 	       (a << 24) | (r << 16) | (g << 8) | b);

     }

 }

 static void

 store_scanline_16 (bits_image_t *  image,

 		   int             x,

 		   int             y,

 		   int             width,

 		   const uint32_t *v)

 {

     uint16_t *bits = (uint16_t*)(image->bits + image->rowstride * y);

     uint16_t *values = (uint16_t *)v;

     uint16_t *pixel = bits + x;

     int i;

     for (i = 0; i < width; ++i)

     {

 	WRITE (image, pixel++, values[i]);

     }

 }

 static void

 fetch_scanline_16 (pixman_image_t *image,

                             int             x,

                             int             y,

                             int             width,

                             uint32_t *      b,

                             const uint32_t *mask)

 {

     const uint16_t *bits = (uint16_t*)(image->bits.bits + y * image->bits.rowstride);

     const uint16_t *pixel = bits + x;

     int i;

     uint16_t *buffer = (uint16_t *)b;

     for (i = 0; i < width; ++i)

     {

 	*buffer++ = READ (image, pixel++);

     }

 }

 /*

  * Contracts a floating point image to 32bpp and then stores it using a

  * regular 32-bit store proc. Despite the type, this function expects an

  * argb_t buffer.

  */

 static void

 store_scanline_generic_float (bits_image_t *  image,

 			      int             x,

 			      int             y,

 			      int             width,

 			      const uint32_t *values)

 {

     uint32_t *argb8_pixels;

     assert (image->common.type == BITS);

     argb8_pixels = pixman_malloc_ab (width, sizeof(uint32_t));

     if (!argb8_pixels)

 	return;

     /* Contract the scanline.  We could do this in place if values weren't

      * const.

      */

     pixman_contract_from_float (argb8_pixels, (argb_t *)values, width);

     image->store_scanline_32 (image, x, y, width, argb8_pixels);

     free (argb8_pixels);

 }

 static void

 fetch_scanline_generic_float (pixman_image_t *image,

 			      int	      x,

 			      int	      y,

 			      int	      width,

 			      uint32_t *      buffer,

 			      const uint32_t *mask)

 {

     image->bits.fetch_scanline_32 (image, x, y, width, buffer, NULL);

     pixman_expand_to_float ((argb_t *)buffer, buffer, image->bits.format, width);

 }

 /* The 32_sRGB paths should be deleted after narrow processing

  * is no longer invoked for formats that are considered wide.

  * (Also see fetch_pixel_generic_lossy_32) */

 static void

 fetch_scanline_a8r8g8b8_32_sRGB (pixman_image_t *image,

                                  int             x,

                                  int             y,

                                  int             width,

                                  uint32_t       *buffer,

                                  const uint32_t *mask)

 {

     const uint32_t *bits = image->bits.bits + y * image->bits.rowstride;

     const uint32_t *pixel = (uint32_t *)bits + x;

     const uint32_t *end = pixel + width;

     uint32_t tmp;

     while (pixel < end)

     {

 	uint8_t a, r, g, b;

 	tmp = READ (image, pixel++);

 	a = (tmp >> 24) & 0xff;

 	r = (tmp >> 16) & 0xff;

 	g = (tmp >> 8) & 0xff;

 	b = (tmp >> 0) & 0xff;

 	r = to_linear[r] * 255.0f + 0.5f;

 	g = to_linear[g] * 255.0f + 0.5f;

 	b = to_linear[b] * 255.0f + 0.5f;

 	*buffer++ = (a << 24) | (r << 16) | (g << 8) | (b << 0);

     }

 }

 static uint32_t

 fetch_pixel_a8r8g8b8_32_sRGB (bits_image_t *image,

 			      int           offset,

 			      int           line)

 {

     uint32_t *bits = image->bits + line * image->rowstride;

     uint32_t tmp = READ (image, bits + offset);

     uint8_t a, r, g, b;

     a = (tmp >> 24) & 0xff;

     r = (tmp >> 16) & 0xff;

     g = (tmp >> 8) & 0xff;

     b = (tmp >> 0) & 0xff;

     r = to_linear[r] * 255.0f + 0.5f;

     g = to_linear[g] * 255.0f + 0.5f;

     b = to_linear[b] * 255.0f + 0.5f;

     return (a << 24) | (r << 16) | (g << 8) | (b << 0);

 }

 static void

 store_scanline_a8r8g8b8_32_sRGB (bits_image_t   *image,

                                  int             x,

                                  int             y,

                                  int             width,

                                  const uint32_t *v)

 {

     uint32_t *bits = image->bits + image->rowstride * y;

     uint64_t *values = (uint64_t *)v;

     uint32_t *pixel = bits + x;

     uint64_t tmp;

     int i;

     for (i = 0; i < width; ++i)

     {

 	uint8_t a, r, g, b;

 	tmp = values[i];

 	a = (tmp >> 24) & 0xff;

 	r = (tmp >> 16) & 0xff;

 	g = (tmp >> 8) & 0xff;

 	b = (tmp >> 0) & 0xff;

 	r = to_srgb (r * (1/255.0f));

 	g = to_srgb (g * (1/255.0f));

 	b = to_srgb (b * (1/255.0f));

 	WRITE (image, pixel++, a | (r << 16) | (g << 8) | (b << 0));

     }

 }

 static argb_t

 fetch_pixel_generic_float (bits_image_t *image,

 			   int		 offset,

 			   int           line)

 {

     uint32_t pixel32 = image->fetch_pixel_32 (image, offset, line);

     argb_t f;

     pixman_expand_to_float (&f, &pixel32, image->format, 1);

     return f;

 }

 /*

  * XXX: The transformed fetch path only works at 32-bpp so far.  When all

  * paths have wide versions, this can be removed.

  *

  * WARNING: This function loses precision!

  */

 static uint32_t

 fetch_pixel_generic_lossy_32 (bits_image_t *image,

 			      int           offset,

 			      int           line)

 {

     argb_t pixel64 = image->fetch_pixel_float (image, offset, line);

     uint32_t result;

     pixman_contract_from_float (&result, &pixel64, 1);

     return result;

 }

 typedef struct

 {

     pixman_format_code_t	format;

     fetch_scanline_t		fetch_scanline_16;

     fetch_scanline_t		fetch_scanline_32;

     fetch_scanline_t		fetch_scanline_float;

     fetch_pixel_32_t		fetch_pixel_32;

     fetch_pixel_float_t		fetch_pixel_float;

     store_scanline_t		store_scanline_16;

     store_scanline_t		store_scanline_32;

     store_scanline_t		store_scanline_float;

 } format_info_t;

 #define FORMAT_INFO(format) 						\

     {									\

 	PIXMAN_ ## format,						\

 	    NULL,							\

 	    fetch_scanline_ ## format,					\

 	    fetch_scanline_generic_float,				\

 	    fetch_pixel_ ## format,					\

 	    fetch_pixel_generic_float,					\

 	    NULL,							\

 	    store_scanline_ ## format,					\

 	    store_scanline_generic_float				\

     }

 #define FORMAT_INFO16(format) 						\

     {									\

 	PIXMAN_ ## format,						\

 	    fetch_scanline_16,						\

 	    fetch_scanline_ ## format,					\

 	    fetch_scanline_generic_float,				\

 	    fetch_pixel_ ## format,					\

 	    fetch_pixel_generic_float,					\

 	    store_scanline_16,						\

 	    store_scanline_ ## format,					\

 	    store_scanline_generic_float				\

     }

 static const format_info_t accessors[] =

 {

 /* 32 bpp formats */

     FORMAT_INFO (a8r8g8b8),

     FORMAT_INFO (x8r8g8b8),

     FORMAT_INFO (a8b8g8r8),

     FORMAT_INFO (x8b8g8r8),

     FORMAT_INFO (b8g8r8a8),

     FORMAT_INFO (b8g8r8x8),

     FORMAT_INFO (r8g8b8a8),

     FORMAT_INFO (r8g8b8x8),

     FORMAT_INFO (x14r6g6b6),

 /* sRGB formats */

   { PIXMAN_a8r8g8b8_sRGB,

     NULL,

     fetch_scanline_a8r8g8b8_32_sRGB, fetch_scanline_a8r8g8b8_sRGB_float,

     fetch_pixel_a8r8g8b8_32_sRGB, fetch_pixel_a8r8g8b8_sRGB_float,

     NULL,

     store_scanline_a8r8g8b8_32_sRGB, store_scanline_a8r8g8b8_sRGB_float,

   },

 /* 24bpp formats */

     FORMAT_INFO (r8g8b8),

     FORMAT_INFO (b8g8r8),

 /* 16bpp formats */

     FORMAT_INFO16 (r5g6b5),

     FORMAT_INFO16 (b5g6r5),

     FORMAT_INFO (a1r5g5b5),

     FORMAT_INFO (x1r5g5b5),

     FORMAT_INFO (a1b5g5r5),

     FORMAT_INFO (x1b5g5r5),

     FORMAT_INFO (a4r4g4b4),

     FORMAT_INFO (x4r4g4b4),

     FORMAT_INFO (a4b4g4r4),

     FORMAT_INFO (x4b4g4r4),

 /* 8bpp formats */

     FORMAT_INFO (a8),

     FORMAT_INFO (r3g3b2),

     FORMAT_INFO (b2g3r3),

     FORMAT_INFO (a2r2g2b2),

     FORMAT_INFO (a2b2g2r2),

     FORMAT_INFO (c8),

     FORMAT_INFO (g8),

 #define fetch_scanline_x4c4 fetch_scanline_c8

 #define fetch_pixel_x4c4 fetch_pixel_c8

 #define store_scanline_x4c4 store_scanline_c8

     FORMAT_INFO (x4c4),

 #define fetch_scanline_x4g4 fetch_scanline_g8

 #define fetch_pixel_x4g4 fetch_pixel_g8

 #define store_scanline_x4g4 store_scanline_g8

     FORMAT_INFO (x4g4),

     FORMAT_INFO (x4a4),

 /* 4bpp formats */

     FORMAT_INFO (a4),

     FORMAT_INFO (r1g2b1),

     FORMAT_INFO (b1g2r1),

     FORMAT_INFO (a1r1g1b1),

     FORMAT_INFO (a1b1g1r1),

     FORMAT_INFO (c4),

     FORMAT_INFO (g4),

 /* 1bpp formats */

     FORMAT_INFO (a1),

     FORMAT_INFO (g1),

 /* Wide formats */

     { PIXMAN_a2r10g10b10,

       NULL, NULL, fetch_scanline_a2r10g10b10_float,

       fetch_pixel_generic_lossy_32, fetch_pixel_a2r10g10b10_float,

       NULL, NULL, store_scanline_a2r10g10b10_float },

     { PIXMAN_x2r10g10b10,

       NULL, NULL, fetch_scanline_x2r10g10b10_float,

       fetch_pixel_generic_lossy_32, fetch_pixel_x2r10g10b10_float,

       NULL, NULL, store_scanline_x2r10g10b10_float },

     { PIXMAN_a2b10g10r10,

       NULL, NULL, fetch_scanline_a2b10g10r10_float,

       fetch_pixel_generic_lossy_32, fetch_pixel_a2b10g10r10_float,

       NULL, NULL, store_scanline_a2b10g10r10_float },

     { PIXMAN_x2b10g10r10,

       NULL, NULL, fetch_scanline_x2b10g10r10_float,

       fetch_pixel_generic_lossy_32, fetch_pixel_x2b10g10r10_float,

       NULL, NULL, store_scanline_x2b10g10r10_float },

 /* YUV formats */

     { PIXMAN_yuy2,

       NULL, fetch_scanline_yuy2, fetch_scanline_generic_float,

       fetch_pixel_yuy2, fetch_pixel_generic_float,

       NULL, NULL, NULL },

     { PIXMAN_yv12,

       NULL, fetch_scanline_yv12, fetch_scanline_generic_float,

       fetch_pixel_yv12, fetch_pixel_generic_float,

       NULL, NULL, NULL },

     { PIXMAN_null },

 };

 static void

 setup_accessors (bits_image_t *image)

 {

     const format_info_t *info = accessors;

     while (info->format != PIXMAN_null)

     {

 	if (info->format == image->format)

 	{

 	    image->fetch_scanline_16 = info->fetch_scanline_16;

 	    image->fetch_scanline_32 = info->fetch_scanline_32;

 	    image->fetch_scanline_float = info->fetch_scanline_float;

 	    image->fetch_pixel_32 = info->fetch_pixel_32;

 	    image->fetch_pixel_float = info->fetch_pixel_float;

 	    image->store_scanline_16 = info->store_scanline_16;

 	    image->store_scanline_32 = info->store_scanline_32;

 	    image->store_scanline_float = info->store_scanline_float;

 	    return;

 	}

 	info++;

     }

 }

 #ifndef PIXMAN_FB_ACCESSORS

 void

 _pixman_bits_image_setup_accessors_accessors (bits_image_t *image);

 void

 _pixman_bits_image_setup_accessors (bits_image_t *image)

 {

     if (image->read_func || image->write_func)

 	_pixman_bits_image_setup_accessors_accessors (image);

     else

 	setup_accessors (image);

 }

 #else

 void

 _pixman_bits_image_setup_accessors_accessors (bits_image_t *image)

 {

     setup_accessors (image);

 }

 #endif