source-git / mingw-pixman

Clone
Source Code
GIT

Blame pixman/pixman-image.c

c8 master
  1.   030a233957209de06eb393f319d3c189df764229
  2.   pixman
  3.   pixman-image.c
Blob History Raw
Packit 030a23 
/*
Packit 030a23 
 * Copyright © 2000 SuSE, Inc.
Packit 030a23 
 * Copyright © 2007 Red Hat, Inc.
Packit 030a23 
 *
Packit 030a23 
 * Permission to use, copy, modify, distribute, and sell this software and its
Packit 030a23 
 * documentation for any purpose is hereby granted without fee, provided that
Packit 030a23 
 * the above copyright notice appear in all copies and that both that
Packit 030a23 
 * copyright notice and this permission notice appear in supporting
Packit 030a23 
 * documentation, and that the name of SuSE not be used in advertising or
Packit 030a23 
 * publicity pertaining to distribution of the software without specific,
Packit 030a23 
 * written prior permission.  SuSE makes no representations about the
Packit 030a23 
 * suitability of this software for any purpose.  It is provided "as is"
Packit 030a23 
 * without express or implied warranty.
Packit 030a23 
 *
Packit 030a23 
 * SuSE DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL
Packit 030a23 
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL SuSE
Packit 030a23 
 * BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
Packit 030a23 
 * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION
Packit 030a23 
 * OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
Packit 030a23 
 * CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
Packit 030a23 
 */
Packit 030a23
Packit 030a23 
#ifdef HAVE_CONFIG_H
Packit 030a23 
#include <config.h>
Packit 030a23 
#endif
Packit 030a23
Packit 030a23 
#include <stdlib.h>
Packit 030a23 
#include <stdio.h>
Packit 030a23 
#include <string.h>
Packit 030a23 
#include <assert.h>
Packit 030a23
Packit 030a23 
#include "pixman-private.h"
Packit 030a23
Packit 030a23 
static const pixman_color_t transparent_black = { 0, 0, 0, 0 };
Packit 030a23
Packit 030a23 
static void
Packit 030a23 
gradient_property_changed (pixman_image_t *image)
Packit 030a23 
{
Packit 030a23 
    gradient_t *gradient = &image->gradient;
Packit 030a23 
    int n = gradient->n_stops;
Packit 030a23 
    pixman_gradient_stop_t *stops = gradient->stops;
Packit 030a23 
    pixman_gradient_stop_t *begin = &(gradient->stops[-1]);
Packit 030a23 
    pixman_gradient_stop_t *end = &(gradient->stops[n]);
Packit 030a23
Packit 030a23 
    switch (gradient->common.repeat)
Packit 030a23 
    {
Packit 030a23 
    default:
Packit 030a23 
    case PIXMAN_REPEAT_NONE:
Packit 030a23 
	begin->x = INT32_MIN;
Packit 030a23 
	begin->color = transparent_black;
Packit 030a23 
	end->x = INT32_MAX;
Packit 030a23 
	end->color = transparent_black;
Packit 030a23 
	break;
Packit 030a23
Packit 030a23 
    case PIXMAN_REPEAT_NORMAL:
Packit 030a23 
	begin->x = stops[n - 1].x - pixman_fixed_1;
Packit 030a23 
	begin->color = stops[n - 1].color;
Packit 030a23 
	end->x = stops[0].x + pixman_fixed_1;
Packit 030a23 
	end->color = stops[0].color;
Packit 030a23 
	break;
Packit 030a23
Packit 030a23 
    case PIXMAN_REPEAT_REFLECT:
Packit 030a23 
	begin->x = - stops[0].x;
Packit 030a23 
	begin->color = stops[0].color;
Packit 030a23 
	end->x = pixman_int_to_fixed (2) - stops[n - 1].x;
Packit 030a23 
	end->color = stops[n - 1].color;
Packit 030a23 
	break;
Packit 030a23
Packit 030a23 
    case PIXMAN_REPEAT_PAD:
Packit 030a23 
	begin->x = INT32_MIN;
Packit 030a23 
	begin->color = stops[0].color;
Packit 030a23 
	end->x = INT32_MAX;
Packit 030a23 
	end->color = stops[n - 1].color;
Packit 030a23 
	break;
Packit 030a23 
    }
Packit 030a23 
}
Packit 030a23
Packit 030a23 
pixman_bool_t
Packit 030a23 
_pixman_init_gradient (gradient_t *                  gradient,
Packit 030a23 
                       const pixman_gradient_stop_t *stops,
Packit 030a23 
                       int                           n_stops)
Packit 030a23 
{
Packit 030a23 
    return_val_if_fail (n_stops > 0, FALSE);
Packit 030a23
Packit 030a23 
    /* We allocate two extra stops, one before the beginning of the stop list,
Packit 030a23 
     * and one after the end. These stops are initialized to whatever color
Packit 030a23 
     * would be used for positions outside the range of the stop list.
Packit 030a23 
     *
Packit 030a23 
     * This saves a bit of computation in the gradient walker.
Packit 030a23 
     *
Packit 030a23 
     * The pointer we store in the gradient_t struct still points to the
Packit 030a23 
     * first user-supplied struct, so when freeing, we will have to
Packit 030a23 
     * subtract one.
Packit 030a23 
     */
Packit 030a23 
    gradient->stops =
Packit 030a23 
	pixman_malloc_ab (n_stops + 2, sizeof (pixman_gradient_stop_t));
Packit 030a23 
    if (!gradient->stops)
Packit 030a23 
	return FALSE;
Packit 030a23
Packit 030a23 
    gradient->stops += 1;
Packit 030a23 
    memcpy (gradient->stops, stops, n_stops * sizeof (pixman_gradient_stop_t));
Packit 030a23 
    gradient->n_stops = n_stops;
Packit 030a23
Packit 030a23 
    gradient->common.property_changed = gradient_property_changed;
Packit 030a23
Packit 030a23 
    return TRUE;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
void
Packit 030a23 
_pixman_image_init (pixman_image_t *image)
Packit 030a23 
{
Packit 030a23 
    image_common_t *common = &image->common;
Packit 030a23
Packit 030a23 
    pixman_region32_init (&common->clip_region);
Packit 030a23
Packit 030a23 
    common->alpha_count = 0;
Packit 030a23 
    common->have_clip_region = FALSE;
Packit 030a23 
    common->clip_sources = FALSE;
Packit 030a23 
    common->transform = NULL;
Packit 030a23 
    common->repeat = PIXMAN_REPEAT_NONE;
Packit 030a23 
    common->filter = PIXMAN_FILTER_NEAREST;
Packit 030a23 
    common->filter_params = NULL;
Packit 030a23 
    common->n_filter_params = 0;
Packit 030a23 
    common->alpha_map = NULL;
Packit 030a23 
    common->component_alpha = FALSE;
Packit 030a23 
    common->ref_count = 1;
Packit 030a23 
    common->property_changed = NULL;
Packit 030a23 
    common->client_clip = FALSE;
Packit 030a23 
    common->destroy_func = NULL;
Packit 030a23 
    common->destroy_data = NULL;
Packit 030a23 
    common->dirty = TRUE;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
pixman_bool_t
Packit 030a23 
_pixman_image_fini (pixman_image_t *image)
Packit 030a23 
{
Packit 030a23 
    image_common_t *common = (image_common_t *)image;
Packit 030a23
Packit 030a23 
    common->ref_count--;
Packit 030a23
Packit 030a23 
    if (common->ref_count == 0)
Packit 030a23 
    {
Packit 030a23 
	if (image->common.destroy_func)
Packit 030a23 
	    image->common.destroy_func (image, image->common.destroy_data);
Packit 030a23
Packit 030a23 
	pixman_region32_fini (&common->clip_region);
Packit 030a23
Packit 030a23 
	free (common->transform);
Packit 030a23 
	free (common->filter_params);
Packit 030a23
Packit 030a23 
	if (common->alpha_map)
Packit 030a23 
	    pixman_image_unref ((pixman_image_t *)common->alpha_map);
Packit 030a23
Packit 030a23 
	if (image->type == LINEAR ||
Packit 030a23 
	    image->type == RADIAL ||
Packit 030a23 
	    image->type == CONICAL)
Packit 030a23 
	{
Packit 030a23 
	    if (image->gradient.stops)
Packit 030a23 
	    {
Packit 030a23 
		/* See _pixman_init_gradient() for an explanation of the - 1 */
Packit 030a23 
		free (image->gradient.stops - 1);
Packit 030a23 
	    }
Packit 030a23
Packit 030a23 
	    /* This will trigger if someone adds a property_changed
Packit 030a23 
	     * method to the linear/radial/conical gradient overwriting
Packit 030a23 
	     * the general one.
Packit 030a23 
	     */
Packit 030a23 
	    assert (
Packit 030a23 
		image->common.property_changed == gradient_property_changed);
Packit 030a23 
	}
Packit 030a23
Packit 030a23 
	if (image->type == BITS && image->bits.free_me)
Packit 030a23 
	    free (image->bits.free_me);
Packit 030a23
Packit 030a23 
	return TRUE;
Packit 030a23 
    }
Packit 030a23
Packit 030a23 
    return FALSE;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
pixman_image_t *
Packit 030a23 
_pixman_image_allocate (void)
Packit 030a23 
{
Packit 030a23 
    pixman_image_t *image = malloc (sizeof (pixman_image_t));
Packit 030a23
Packit 030a23 
    if (image)
Packit 030a23 
	_pixman_image_init (image);
Packit 030a23
Packit 030a23 
    return image;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
static void
Packit 030a23 
image_property_changed (pixman_image_t *image)
Packit 030a23 
{
Packit 030a23 
    image->common.dirty = TRUE;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
/* Ref Counting */
Packit 030a23 
PIXMAN_EXPORT pixman_image_t *
Packit 030a23 
pixman_image_ref (pixman_image_t *image)
Packit 030a23 
{
Packit 030a23 
    image->common.ref_count++;
Packit 030a23
Packit 030a23 
    return image;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
/* returns TRUE when the image is freed */
Packit 030a23 
PIXMAN_EXPORT pixman_bool_t
Packit 030a23 
pixman_image_unref (pixman_image_t *image)
Packit 030a23 
{
Packit 030a23 
    if (_pixman_image_fini (image))
Packit 030a23 
    {
Packit 030a23 
	free (image);
Packit 030a23 
	return TRUE;
Packit 030a23 
    }
Packit 030a23
Packit 030a23 
    return FALSE;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
PIXMAN_EXPORT void
Packit 030a23 
pixman_image_set_destroy_function (pixman_image_t *            image,
Packit 030a23 
                                   pixman_image_destroy_func_t func,
Packit 030a23 
                                   void *                      data)
Packit 030a23 
{
Packit 030a23 
    image->common.destroy_func = func;
Packit 030a23 
    image->common.destroy_data = data;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
PIXMAN_EXPORT void *
Packit 030a23 
pixman_image_get_destroy_data (pixman_image_t *image)
Packit 030a23 
{
Packit 030a23 
  return image->common.destroy_data;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
void
Packit 030a23 
_pixman_image_reset_clip_region (pixman_image_t *image)
Packit 030a23 
{
Packit 030a23 
    image->common.have_clip_region = FALSE;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
/* Executive Summary: This function is a no-op that only exists
Packit 030a23 
 * for historical reasons.
Packit 030a23 
 *
Packit 030a23 
 * There used to be a bug in the X server where it would rely on
Packit 030a23 
 * out-of-bounds accesses when it was asked to composite with a
Packit 030a23 
 * window as the source. It would create a pixman image pointing
Packit 030a23 
 * to some bogus position in memory, but then set a clip region
Packit 030a23 
 * to the position where the actual bits were.
Packit 030a23 
 *
Packit 030a23 
 * Due to a bug in old versions of pixman, where it would not clip
Packit 030a23 
 * against the image bounds when a clip region was set, this would
Packit 030a23 
 * actually work. So when the pixman bug was fixed, a workaround was
Packit 030a23 
 * added to allow certain out-of-bound accesses. This function disabled
Packit 030a23 
 * those workarounds.
Packit 030a23 
 *
Packit 030a23 
 * Since 0.21.2, pixman doesn't do these workarounds anymore, so now
Packit 030a23 
 * this function is a no-op.
Packit 030a23 
 */
Packit 030a23 
PIXMAN_EXPORT void
Packit 030a23 
pixman_disable_out_of_bounds_workaround (void)
Packit 030a23 
{
Packit 030a23 
}
Packit 030a23
Packit 030a23 
static void
Packit 030a23 
compute_image_info (pixman_image_t *image)
Packit 030a23 
{
Packit 030a23 
    pixman_format_code_t code;
Packit 030a23 
    uint32_t flags = 0;
Packit 030a23
Packit 030a23 
    /* Transform */
Packit 030a23 
    if (!image->common.transform)
Packit 030a23 
    {
Packit 030a23 
	flags |= (FAST_PATH_ID_TRANSFORM	|
Packit 030a23 
		  FAST_PATH_X_UNIT_POSITIVE	|
Packit 030a23 
		  FAST_PATH_Y_UNIT_ZERO		|
Packit 030a23 
		  FAST_PATH_AFFINE_TRANSFORM);
Packit 030a23 
    }
Packit 030a23 
    else
Packit 030a23 
    {
Packit 030a23 
	flags |= FAST_PATH_HAS_TRANSFORM;
Packit 030a23
Packit 030a23 
	if (image->common.transform->matrix[2][0] == 0			&&
Packit 030a23 
	    image->common.transform->matrix[2][1] == 0			&&
Packit 030a23 
	    image->common.transform->matrix[2][2] == pixman_fixed_1)
Packit 030a23 
	{
Packit 030a23 
	    flags |= FAST_PATH_AFFINE_TRANSFORM;
Packit 030a23
Packit 030a23 
	    if (image->common.transform->matrix[0][1] == 0 &&
Packit 030a23 
		image->common.transform->matrix[1][0] == 0)
Packit 030a23 
	    {
Packit 030a23 
		if (image->common.transform->matrix[0][0] == -pixman_fixed_1 &&
Packit 030a23 
		    image->common.transform->matrix[1][1] == -pixman_fixed_1)
Packit 030a23 
		{
Packit 030a23 
		    flags |= FAST_PATH_ROTATE_180_TRANSFORM;
Packit 030a23 
		}
Packit 030a23 
		flags |= FAST_PATH_SCALE_TRANSFORM;
Packit 030a23 
	    }
Packit 030a23 
	    else if (image->common.transform->matrix[0][0] == 0 &&
Packit 030a23 
	             image->common.transform->matrix[1][1] == 0)
Packit 030a23 
	    {
Packit 030a23 
		pixman_fixed_t m01 = image->common.transform->matrix[0][1];
Packit 030a23 
		pixman_fixed_t m10 = image->common.transform->matrix[1][0];
Packit 030a23
Packit 030a23 
		if (m01 == -pixman_fixed_1 && m10 == pixman_fixed_1)
Packit 030a23 
		    flags |= FAST_PATH_ROTATE_90_TRANSFORM;
Packit 030a23 
		else if (m01 == pixman_fixed_1 && m10 == -pixman_fixed_1)
Packit 030a23 
		    flags |= FAST_PATH_ROTATE_270_TRANSFORM;
Packit 030a23 
	    }
Packit 030a23 
	}
Packit 030a23
Packit 030a23 
	if (image->common.transform->matrix[0][0] > 0)
Packit 030a23 
	    flags |= FAST_PATH_X_UNIT_POSITIVE;
Packit 030a23
Packit 030a23 
	if (image->common.transform->matrix[1][0] == 0)
Packit 030a23 
	    flags |= FAST_PATH_Y_UNIT_ZERO;
Packit 030a23 
    }
Packit 030a23
Packit 030a23 
    /* Filter */
Packit 030a23 
    switch (image->common.filter)
Packit 030a23 
    {
Packit 030a23 
    case PIXMAN_FILTER_NEAREST:
Packit 030a23 
    case PIXMAN_FILTER_FAST:
Packit 030a23 
	flags |= (FAST_PATH_NEAREST_FILTER | FAST_PATH_NO_CONVOLUTION_FILTER);
Packit 030a23 
	break;
Packit 030a23
Packit 030a23 
    case PIXMAN_FILTER_BILINEAR:
Packit 030a23 
    case PIXMAN_FILTER_GOOD:
Packit 030a23 
    case PIXMAN_FILTER_BEST:
Packit 030a23 
	flags |= (FAST_PATH_BILINEAR_FILTER | FAST_PATH_NO_CONVOLUTION_FILTER);
Packit 030a23
Packit 030a23 
	/* Here we have a chance to optimize BILINEAR filter to NEAREST if
Packit 030a23 
	 * they are equivalent for the currently used transformation matrix.
Packit 030a23 
	 */
Packit 030a23 
	if (flags & FAST_PATH_ID_TRANSFORM)
Packit 030a23 
	{
Packit 030a23 
	    flags |= FAST_PATH_NEAREST_FILTER;
Packit 030a23 
	}
Packit 030a23 
	else if (
Packit 030a23 
	    /* affine and integer translation components in matrix ... */
Packit 030a23 
	    ((flags & FAST_PATH_AFFINE_TRANSFORM) &&
Packit 030a23 
	     !pixman_fixed_frac (image->common.transform->matrix[0][2] |
Packit 030a23 
				 image->common.transform->matrix[1][2])) &&
Packit 030a23 
	    (
Packit 030a23 
		/* ... combined with a simple rotation */
Packit 030a23 
		(flags & (FAST_PATH_ROTATE_90_TRANSFORM |
Packit 030a23 
			  FAST_PATH_ROTATE_180_TRANSFORM |
Packit 030a23 
			  FAST_PATH_ROTATE_270_TRANSFORM)) ||
Packit 030a23 
		/* ... or combined with a simple non-rotated translation */
Packit 030a23 
		(image->common.transform->matrix[0][0] == pixman_fixed_1 &&
Packit 030a23 
		 image->common.transform->matrix[1][1] == pixman_fixed_1 &&
Packit 030a23 
		 image->common.transform->matrix[0][1] == 0 &&
Packit 030a23 
		 image->common.transform->matrix[1][0] == 0)
Packit 030a23 
		)
Packit 030a23 
	    )
Packit 030a23 
	{
Packit 030a23 
	    /* FIXME: there are some affine-test failures, showing that
Packit 030a23 
	     * handling of BILINEAR and NEAREST filter is not quite
Packit 030a23 
	     * equivalent when getting close to 32K for the translation
Packit 030a23 
	     * components of the matrix. That's likely some bug, but for
Packit 030a23 
	     * now just skip BILINEAR->NEAREST optimization in this case.
Packit 030a23 
	     */
Packit 030a23 
	    pixman_fixed_t magic_limit = pixman_int_to_fixed (30000);
Packit 030a23 
	    if (image->common.transform->matrix[0][2] <= magic_limit  &&
Packit 030a23 
	        image->common.transform->matrix[1][2] <= magic_limit  &&
Packit 030a23 
	        image->common.transform->matrix[0][2] >= -magic_limit &&
Packit 030a23 
	        image->common.transform->matrix[1][2] >= -magic_limit)
Packit 030a23 
	    {
Packit 030a23 
		flags |= FAST_PATH_NEAREST_FILTER;
Packit 030a23 
	    }
Packit 030a23 
	}
Packit 030a23 
	break;
Packit 030a23
Packit 030a23 
    case PIXMAN_FILTER_CONVOLUTION:
Packit 030a23 
	break;
Packit 030a23
Packit 030a23 
    case PIXMAN_FILTER_SEPARABLE_CONVOLUTION:
Packit 030a23 
	flags |= FAST_PATH_SEPARABLE_CONVOLUTION_FILTER;
Packit 030a23 
	break;
Packit 030a23
Packit 030a23 
    default:
Packit 030a23 
	flags |= FAST_PATH_NO_CONVOLUTION_FILTER;
Packit 030a23 
	break;
Packit 030a23 
    }
Packit 030a23
Packit 030a23 
    /* Repeat mode */
Packit 030a23 
    switch (image->common.repeat)
Packit 030a23 
    {
Packit 030a23 
    case PIXMAN_REPEAT_NONE:
Packit 030a23 
	flags |=
Packit 030a23 
	    FAST_PATH_NO_REFLECT_REPEAT		|
Packit 030a23 
	    FAST_PATH_NO_PAD_REPEAT		|
Packit 030a23 
	    FAST_PATH_NO_NORMAL_REPEAT;
Packit 030a23 
	break;
Packit 030a23
Packit 030a23 
    case PIXMAN_REPEAT_REFLECT:
Packit 030a23 
	flags |=
Packit 030a23 
	    FAST_PATH_NO_PAD_REPEAT		|
Packit 030a23 
	    FAST_PATH_NO_NONE_REPEAT		|
Packit 030a23 
	    FAST_PATH_NO_NORMAL_REPEAT;
Packit 030a23 
	break;
Packit 030a23
Packit 030a23 
    case PIXMAN_REPEAT_PAD:
Packit 030a23 
	flags |=
Packit 030a23 
	    FAST_PATH_NO_REFLECT_REPEAT		|
Packit 030a23 
	    FAST_PATH_NO_NONE_REPEAT		|
Packit 030a23 
	    FAST_PATH_NO_NORMAL_REPEAT;
Packit 030a23 
	break;
Packit 030a23
Packit 030a23 
    default:
Packit 030a23 
	flags |=
Packit 030a23 
	    FAST_PATH_NO_REFLECT_REPEAT		|
Packit 030a23 
	    FAST_PATH_NO_PAD_REPEAT		|
Packit 030a23 
	    FAST_PATH_NO_NONE_REPEAT;
Packit 030a23 
	break;
Packit 030a23 
    }
Packit 030a23
Packit 030a23 
    /* Component alpha */
Packit 030a23 
    if (image->common.component_alpha)
Packit 030a23 
	flags |= FAST_PATH_COMPONENT_ALPHA;
Packit 030a23 
    else
Packit 030a23 
	flags |= FAST_PATH_UNIFIED_ALPHA;
Packit 030a23
Packit 030a23 
    flags |= (FAST_PATH_NO_ACCESSORS | FAST_PATH_NARROW_FORMAT);
Packit 030a23
Packit 030a23 
    /* Type specific checks */
Packit 030a23 
    switch (image->type)
Packit 030a23 
    {
Packit 030a23 
    case SOLID:
Packit 030a23 
	code = PIXMAN_solid;
Packit 030a23
Packit 030a23 
	if (image->solid.color.alpha == 0xffff)
Packit 030a23 
	    flags |= FAST_PATH_IS_OPAQUE;
Packit 030a23 
	break;
Packit 030a23
Packit 030a23 
    case BITS:
Packit 030a23 
	if (image->bits.width == 1	&&
Packit 030a23 
	    image->bits.height == 1	&&
Packit 030a23 
	    image->common.repeat != PIXMAN_REPEAT_NONE)
Packit 030a23 
	{
Packit 030a23 
	    code = PIXMAN_solid;
Packit 030a23 
	}
Packit 030a23 
	else
Packit 030a23 
	{
Packit 030a23 
	    code = image->bits.format;
Packit 030a23 
	    flags |= FAST_PATH_BITS_IMAGE;
Packit 030a23 
	}
Packit 030a23
Packit 030a23 
	if (!PIXMAN_FORMAT_A (image->bits.format)				&&
Packit 030a23 
	    PIXMAN_FORMAT_TYPE (image->bits.format) != PIXMAN_TYPE_GRAY		&&
Packit 030a23 
	    PIXMAN_FORMAT_TYPE (image->bits.format) != PIXMAN_TYPE_COLOR)
Packit 030a23 
	{
Packit 030a23 
	    flags |= FAST_PATH_SAMPLES_OPAQUE;
Packit 030a23
Packit 030a23 
	    if (image->common.repeat != PIXMAN_REPEAT_NONE)
Packit 030a23 
		flags |= FAST_PATH_IS_OPAQUE;
Packit 030a23 
	}
Packit 030a23
Packit 030a23 
	if (image->bits.read_func || image->bits.write_func)
Packit 030a23 
	    flags &= ~FAST_PATH_NO_ACCESSORS;
Packit 030a23
Packit 030a23 
	if (PIXMAN_FORMAT_IS_WIDE (image->bits.format))
Packit 030a23 
	    flags &= ~FAST_PATH_NARROW_FORMAT;
Packit 030a23 
	break;
Packit 030a23
Packit 030a23 
    case RADIAL:
Packit 030a23 
	code = PIXMAN_unknown;
Packit 030a23
Packit 030a23 
	/*
Packit 030a23 
	 * As explained in pixman-radial-gradient.c, every point of
Packit 030a23 
	 * the plane has a valid associated radius (and thus will be
Packit 030a23 
	 * colored) if and only if a is negative (i.e. one of the two
Packit 030a23 
	 * circles contains the other one).
Packit 030a23 
	 */
Packit 030a23
Packit 030a23 
        if (image->radial.a >= 0)
Packit 030a23 
	    break;
Packit 030a23
Packit 030a23 
	/* Fall through */
Packit 030a23
Packit 030a23 
    case CONICAL:
Packit 030a23 
    case LINEAR:
Packit 030a23 
	code = PIXMAN_unknown;
Packit 030a23
Packit 030a23 
	if (image->common.repeat != PIXMAN_REPEAT_NONE)
Packit 030a23 
	{
Packit 030a23 
	    int i;
Packit 030a23
Packit 030a23 
	    flags |= FAST_PATH_IS_OPAQUE;
Packit 030a23 
	    for (i = 0; i < image->gradient.n_stops; ++i)
Packit 030a23 
	    {
Packit 030a23 
		if (image->gradient.stops[i].color.alpha != 0xffff)
Packit 030a23 
		{
Packit 030a23 
		    flags &= ~FAST_PATH_IS_OPAQUE;
Packit 030a23 
		    break;
Packit 030a23 
		}
Packit 030a23 
	    }
Packit 030a23 
	}
Packit 030a23 
	break;
Packit 030a23
Packit 030a23 
    default:
Packit 030a23 
	code = PIXMAN_unknown;
Packit 030a23 
	break;
Packit 030a23 
    }
Packit 030a23
Packit 030a23 
    /* Alpha maps are only supported for BITS images, so it's always
Packit 030a23 
     * safe to ignore their presense for non-BITS images
Packit 030a23 
     */
Packit 030a23 
    if (!image->common.alpha_map || image->type != BITS)
Packit 030a23 
    {
Packit 030a23 
	flags |= FAST_PATH_NO_ALPHA_MAP;
Packit 030a23 
    }
Packit 030a23 
    else
Packit 030a23 
    {
Packit 030a23 
	if (PIXMAN_FORMAT_IS_WIDE (image->common.alpha_map->format))
Packit 030a23 
	    flags &= ~FAST_PATH_NARROW_FORMAT;
Packit 030a23 
    }
Packit 030a23
Packit 030a23 
    /* Both alpha maps and convolution filters can introduce
Packit 030a23 
     * non-opaqueness in otherwise opaque images. Also
Packit 030a23 
     * an image with component alpha turned on is only opaque
Packit 030a23 
     * if all channels are opaque, so we simply turn it off
Packit 030a23 
     * unconditionally for those images.
Packit 030a23 
     */
Packit 030a23 
    if (image->common.alpha_map						||
Packit 030a23 
	image->common.filter == PIXMAN_FILTER_CONVOLUTION		||
Packit 030a23 
        image->common.filter == PIXMAN_FILTER_SEPARABLE_CONVOLUTION     ||
Packit 030a23 
	image->common.component_alpha)
Packit 030a23 
    {
Packit 030a23 
	flags &= ~(FAST_PATH_IS_OPAQUE | FAST_PATH_SAMPLES_OPAQUE);
Packit 030a23 
    }
Packit 030a23
Packit 030a23 
    image->common.flags = flags;
Packit 030a23 
    image->common.extended_format_code = code;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
void
Packit 030a23 
_pixman_image_validate (pixman_image_t *image)
Packit 030a23 
{
Packit 030a23 
    if (image->common.dirty)
Packit 030a23 
    {
Packit 030a23 
	compute_image_info (image);
Packit 030a23
Packit 030a23 
	/* It is important that property_changed is
Packit 030a23 
	 * called *after* compute_image_info() because
Packit 030a23 
	 * property_changed() can make use of the flags
Packit 030a23 
	 * to set up accessors etc.
Packit 030a23 
	 */
Packit 030a23 
	if (image->common.property_changed)
Packit 030a23 
	    image->common.property_changed (image);
Packit 030a23
Packit 030a23 
	image->common.dirty = FALSE;
Packit 030a23 
    }
Packit 030a23
Packit 030a23 
    if (image->common.alpha_map)
Packit 030a23 
	_pixman_image_validate ((pixman_image_t *)image->common.alpha_map);
Packit 030a23 
}
Packit 030a23
Packit 030a23 
PIXMAN_EXPORT pixman_bool_t
Packit 030a23 
pixman_image_set_clip_region32 (pixman_image_t *   image,
Packit 030a23 
                                pixman_region32_t *region)
Packit 030a23 
{
Packit 030a23 
    image_common_t *common = (image_common_t *)image;
Packit 030a23 
    pixman_bool_t result;
Packit 030a23
Packit 030a23 
    if (region)
Packit 030a23 
    {
Packit 030a23 
	if ((result = pixman_region32_copy (&common->clip_region, region)))
Packit 030a23 
	    image->common.have_clip_region = TRUE;
Packit 030a23 
    }
Packit 030a23 
    else
Packit 030a23 
    {
Packit 030a23 
	_pixman_image_reset_clip_region (image);
Packit 030a23
Packit 030a23 
	result = TRUE;
Packit 030a23 
    }
Packit 030a23
Packit 030a23 
    image_property_changed (image);
Packit 030a23
Packit 030a23 
    return result;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
PIXMAN_EXPORT pixman_bool_t
Packit 030a23 
pixman_image_set_clip_region (pixman_image_t *   image,
Packit 030a23 
                              pixman_region16_t *region)
Packit 030a23 
{
Packit 030a23 
    image_common_t *common = (image_common_t *)image;
Packit 030a23 
    pixman_bool_t result;
Packit 030a23
Packit 030a23 
    if (region)
Packit 030a23 
    {
Packit 030a23 
	if ((result = pixman_region32_copy_from_region16 (&common->clip_region, region)))
Packit 030a23 
	    image->common.have_clip_region = TRUE;
Packit 030a23 
    }
Packit 030a23 
    else
Packit 030a23 
    {
Packit 030a23 
	_pixman_image_reset_clip_region (image);
Packit 030a23
Packit 030a23 
	result = TRUE;
Packit 030a23 
    }
Packit 030a23
Packit 030a23 
    image_property_changed (image);
Packit 030a23
Packit 030a23 
    return result;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
PIXMAN_EXPORT void
Packit 030a23 
pixman_image_set_has_client_clip (pixman_image_t *image,
Packit 030a23 
                                  pixman_bool_t   client_clip)
Packit 030a23 
{
Packit 030a23 
    image->common.client_clip = client_clip;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
PIXMAN_EXPORT pixman_bool_t
Packit 030a23 
pixman_image_set_transform (pixman_image_t *          image,
Packit 030a23 
                            const pixman_transform_t *transform)
Packit 030a23 
{
Packit 030a23 
    static const pixman_transform_t id =
Packit 030a23 
    {
Packit 030a23 
	{ { pixman_fixed_1, 0, 0 },
Packit 030a23 
	  { 0, pixman_fixed_1, 0 },
Packit 030a23 
	  { 0, 0, pixman_fixed_1 } }
Packit 030a23 
    };
Packit 030a23
Packit 030a23 
    image_common_t *common = (image_common_t *)image;
Packit 030a23 
    pixman_bool_t result;
Packit 030a23
Packit 030a23 
    if (common->transform == transform)
Packit 030a23 
	return TRUE;
Packit 030a23
Packit 030a23 
    if (!transform || memcmp (&id, transform, sizeof (pixman_transform_t)) == 0)
Packit 030a23 
    {
Packit 030a23 
	free (common->transform);
Packit 030a23 
	common->transform = NULL;
Packit 030a23 
	result = TRUE;
Packit 030a23
Packit 030a23 
	goto out;
Packit 030a23 
    }
Packit 030a23
Packit 030a23 
    if (common->transform &&
Packit 030a23 
	memcmp (common->transform, transform, sizeof (pixman_transform_t)) == 0)
Packit 030a23 
    {
Packit 030a23 
	return TRUE;
Packit 030a23 
    }
Packit 030a23
Packit 030a23 
    if (common->transform == NULL)
Packit 030a23 
	common->transform = malloc (sizeof (pixman_transform_t));
Packit 030a23
Packit 030a23 
    if (common->transform == NULL)
Packit 030a23 
    {
Packit 030a23 
	result = FALSE;
Packit 030a23
Packit 030a23 
	goto out;
Packit 030a23 
    }
Packit 030a23
Packit 030a23 
    memcpy (common->transform, transform, sizeof(pixman_transform_t));
Packit 030a23
Packit 030a23 
    result = TRUE;
Packit 030a23
Packit 030a23 
out:
Packit 030a23 
    image_property_changed (image);
Packit 030a23
Packit 030a23 
    return result;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
PIXMAN_EXPORT void
Packit 030a23 
pixman_image_set_repeat (pixman_image_t *image,
Packit 030a23 
                         pixman_repeat_t repeat)
Packit 030a23 
{
Packit 030a23 
    if (image->common.repeat == repeat)
Packit 030a23 
	return;
Packit 030a23
Packit 030a23 
    image->common.repeat = repeat;
Packit 030a23
Packit 030a23 
    image_property_changed (image);
Packit 030a23 
}
Packit 030a23
Packit 030a23 
PIXMAN_EXPORT pixman_bool_t
Packit 030a23 
pixman_image_set_filter (pixman_image_t *      image,
Packit 030a23 
                         pixman_filter_t       filter,
Packit 030a23 
                         const pixman_fixed_t *params,
Packit 030a23 
                         int                   n_params)
Packit 030a23 
{
Packit 030a23 
    image_common_t *common = (image_common_t *)image;
Packit 030a23 
    pixman_fixed_t *new_params;
Packit 030a23
Packit 030a23 
    if (params == common->filter_params && filter == common->filter)
Packit 030a23 
	return TRUE;
Packit 030a23
Packit 030a23 
    if (filter == PIXMAN_FILTER_SEPARABLE_CONVOLUTION)
Packit 030a23 
    {
Packit 030a23 
	int width = pixman_fixed_to_int (params[0]);
Packit 030a23 
	int height = pixman_fixed_to_int (params[1]);
Packit 030a23 
	int x_phase_bits = pixman_fixed_to_int (params[2]);
Packit 030a23 
	int y_phase_bits = pixman_fixed_to_int (params[3]);
Packit 030a23 
	int n_x_phases = (1 << x_phase_bits);
Packit 030a23 
	int n_y_phases = (1 << y_phase_bits);
Packit 030a23
Packit 030a23 
	return_val_if_fail (
Packit 030a23 
	    n_params == 4 + n_x_phases * width + n_y_phases * height, FALSE);
Packit 030a23 
    }
Packit 030a23
Packit 030a23 
    new_params = NULL;
Packit 030a23 
    if (params)
Packit 030a23 
    {
Packit 030a23 
	new_params = pixman_malloc_ab (n_params, sizeof (pixman_fixed_t));
Packit 030a23 
	if (!new_params)
Packit 030a23 
	    return FALSE;
Packit 030a23
Packit 030a23 
	memcpy (new_params,
Packit 030a23 
	        params, n_params * sizeof (pixman_fixed_t));
Packit 030a23 
    }
Packit 030a23
Packit 030a23 
    common->filter = filter;
Packit 030a23
Packit 030a23 
    if (common->filter_params)
Packit 030a23 
	free (common->filter_params);
Packit 030a23
Packit 030a23 
    common->filter_params = new_params;
Packit 030a23 
    common->n_filter_params = n_params;
Packit 030a23
Packit 030a23 
    image_property_changed (image);
Packit 030a23 
    return TRUE;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
PIXMAN_EXPORT void
Packit 030a23 
pixman_image_set_source_clipping (pixman_image_t *image,
Packit 030a23 
                                  pixman_bool_t   clip_sources)
Packit 030a23 
{
Packit 030a23 
    if (image->common.clip_sources == clip_sources)
Packit 030a23 
	return;
Packit 030a23
Packit 030a23 
    image->common.clip_sources = clip_sources;
Packit 030a23
Packit 030a23 
    image_property_changed (image);
Packit 030a23 
}
Packit 030a23
Packit 030a23 
/* Unlike all the other property setters, this function does not
Packit 030a23 
 * copy the content of indexed. Doing this copying is simply
Packit 030a23 
 * way, way too expensive.
Packit 030a23 
 */
Packit 030a23 
PIXMAN_EXPORT void
Packit 030a23 
pixman_image_set_indexed (pixman_image_t *        image,
Packit 030a23 
                          const pixman_indexed_t *indexed)
Packit 030a23 
{
Packit 030a23 
    bits_image_t *bits = (bits_image_t *)image;
Packit 030a23
Packit 030a23 
    if (bits->indexed == indexed)
Packit 030a23 
	return;
Packit 030a23
Packit 030a23 
    bits->indexed = indexed;
Packit 030a23
Packit 030a23 
    image_property_changed (image);
Packit 030a23 
}
Packit 030a23
Packit 030a23 
PIXMAN_EXPORT void
Packit 030a23 
pixman_image_set_alpha_map (pixman_image_t *image,
Packit 030a23 
                            pixman_image_t *alpha_map,
Packit 030a23 
                            int16_t         x,
Packit 030a23 
                            int16_t         y)
Packit 030a23 
{
Packit 030a23 
    image_common_t *common = (image_common_t *)image;
Packit 030a23
Packit 030a23 
    return_if_fail (!alpha_map || alpha_map->type == BITS);
Packit 030a23
Packit 030a23 
    if (alpha_map && common->alpha_count > 0)
Packit 030a23 
    {
Packit 030a23 
	/* If this image is being used as an alpha map itself,
Packit 030a23 
	 * then you can't give it an alpha map of its own.
Packit 030a23 
	 */
Packit 030a23 
	return;
Packit 030a23 
    }
Packit 030a23
Packit 030a23 
    if (alpha_map && alpha_map->common.alpha_map)
Packit 030a23 
    {
Packit 030a23 
	/* If the image has an alpha map of its own,
Packit 030a23 
	 * then it can't be used as an alpha map itself
Packit 030a23 
	 */
Packit 030a23 
	return;
Packit 030a23 
    }
Packit 030a23
Packit 030a23 
    if (common->alpha_map != (bits_image_t *)alpha_map)
Packit 030a23 
    {
Packit 030a23 
	if (common->alpha_map)
Packit 030a23 
	{
Packit 030a23 
	    common->alpha_map->common.alpha_count--;
Packit 030a23
Packit 030a23 
	    pixman_image_unref ((pixman_image_t *)common->alpha_map);
Packit 030a23 
	}
Packit 030a23
Packit 030a23 
	if (alpha_map)
Packit 030a23 
	{
Packit 030a23 
	    common->alpha_map = (bits_image_t *)pixman_image_ref (alpha_map);
Packit 030a23
Packit 030a23 
	    common->alpha_map->common.alpha_count++;
Packit 030a23 
	}
Packit 030a23 
	else
Packit 030a23 
	{
Packit 030a23 
	    common->alpha_map = NULL;
Packit 030a23 
	}
Packit 030a23 
    }
Packit 030a23
Packit 030a23 
    common->alpha_origin_x = x;
Packit 030a23 
    common->alpha_origin_y = y;
Packit 030a23
Packit 030a23 
    image_property_changed (image);
Packit 030a23 
}
Packit 030a23
Packit 030a23 
PIXMAN_EXPORT void
Packit 030a23 
pixman_image_set_component_alpha   (pixman_image_t *image,
Packit 030a23 
                                    pixman_bool_t   component_alpha)
Packit 030a23 
{
Packit 030a23 
    if (image->common.component_alpha == component_alpha)
Packit 030a23 
	return;
Packit 030a23
Packit 030a23 
    image->common.component_alpha = component_alpha;
Packit 030a23
Packit 030a23 
    image_property_changed (image);
Packit 030a23 
}
Packit 030a23
Packit 030a23 
PIXMAN_EXPORT pixman_bool_t
Packit 030a23 
pixman_image_get_component_alpha   (pixman_image_t       *image)
Packit 030a23 
{
Packit 030a23 
    return image->common.component_alpha;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
PIXMAN_EXPORT void
Packit 030a23 
pixman_image_set_accessors (pixman_image_t *           image,
Packit 030a23 
                            pixman_read_memory_func_t  read_func,
Packit 030a23 
                            pixman_write_memory_func_t write_func)
Packit 030a23 
{
Packit 030a23 
    return_if_fail (image != NULL);
Packit 030a23
Packit 030a23 
    if (image->type == BITS)
Packit 030a23 
    {
Packit 030a23 
	image->bits.read_func = read_func;
Packit 030a23 
	image->bits.write_func = write_func;
Packit 030a23
Packit 030a23 
	image_property_changed (image);
Packit 030a23 
    }
Packit 030a23 
}
Packit 030a23
Packit 030a23 
PIXMAN_EXPORT uint32_t *
Packit 030a23 
pixman_image_get_data (pixman_image_t *image)
Packit 030a23 
{
Packit 030a23 
    if (image->type == BITS)
Packit 030a23 
	return image->bits.bits;
Packit 030a23
Packit 030a23 
    return NULL;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
PIXMAN_EXPORT int
Packit 030a23 
pixman_image_get_width (pixman_image_t *image)
Packit 030a23 
{
Packit 030a23 
    if (image->type == BITS)
Packit 030a23 
	return image->bits.width;
Packit 030a23
Packit 030a23 
    return 0;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
PIXMAN_EXPORT int
Packit 030a23 
pixman_image_get_height (pixman_image_t *image)
Packit 030a23 
{
Packit 030a23 
    if (image->type == BITS)
Packit 030a23 
	return image->bits.height;
Packit 030a23
Packit 030a23 
    return 0;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
PIXMAN_EXPORT int
Packit 030a23 
pixman_image_get_stride (pixman_image_t *image)
Packit 030a23 
{
Packit 030a23 
    if (image->type == BITS)
Packit 030a23 
	return image->bits.rowstride * (int) sizeof (uint32_t);
Packit 030a23
Packit 030a23 
    return 0;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
PIXMAN_EXPORT int
Packit 030a23 
pixman_image_get_depth (pixman_image_t *image)
Packit 030a23 
{
Packit 030a23 
    if (image->type == BITS)
Packit 030a23 
	return PIXMAN_FORMAT_DEPTH (image->bits.format);
Packit 030a23
Packit 030a23 
    return 0;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
PIXMAN_EXPORT pixman_format_code_t
Packit 030a23 
pixman_image_get_format (pixman_image_t *image)
Packit 030a23 
{
Packit 030a23 
    if (image->type == BITS)
Packit 030a23 
	return image->bits.format;
Packit 030a23
Packit 030a23 
    return PIXMAN_null;
Packit 030a23 
}
Packit 030a23
Packit 030a23 
uint32_t
Packit 030a23 
_pixman_image_get_solid (pixman_implementation_t *imp,
Packit 030a23 
			 pixman_image_t *         image,
Packit 030a23 
                         pixman_format_code_t     format)
Packit 030a23 
{
Packit 030a23 
    uint32_t result;
Packit 030a23
Packit 030a23 
    if (image->type == SOLID)
Packit 030a23 
    {
Packit 030a23 
	result = image->solid.color_32;
Packit 030a23 
    }
Packit 030a23 
    else if (image->type == BITS)
Packit 030a23 
    {
Packit 030a23 
	if (image->bits.format == PIXMAN_a8r8g8b8)
Packit 030a23 
	    result = image->bits.bits[0];
Packit 030a23 
	else if (image->bits.format == PIXMAN_x8r8g8b8)
Packit 030a23 
	    result = image->bits.bits[0] | 0xff000000;
Packit 030a23 
	else if (image->bits.format == PIXMAN_a8)
Packit 030a23 
	    result = (*(uint8_t *)image->bits.bits) << 24;
Packit 030a23 
	else
Packit 030a23 
	    goto otherwise;
Packit 030a23 
    }
Packit 030a23 
    else
Packit 030a23 
    {
Packit 030a23 
	pixman_iter_t iter;
Packit 030a23
Packit 030a23 
    otherwise:
Packit 030a23 
	_pixman_implementation_iter_init (
Packit 030a23 
	    imp, &iter, image, 0, 0, 1, 1,
Packit 030a23 
	    (uint8_t *)&result,
Packit 030a23 
	    ITER_NARROW | ITER_SRC, image->common.flags);
Packit 030a23
Packit 030a23 
	result = *iter.get_scanline (&iter, NULL);
Packit 030a23
Packit 030a23 
	if (iter.fini)
Packit 030a23 
	    iter.fini (&iter);
Packit 030a23 
    }
Packit 030a23
Packit 030a23 
    /* If necessary, convert RGB <--> BGR. */
Packit 030a23 
    if (PIXMAN_FORMAT_TYPE (format) != PIXMAN_TYPE_ARGB
Packit 030a23 
	&& PIXMAN_FORMAT_TYPE (format) != PIXMAN_TYPE_ARGB_SRGB)
Packit 030a23 
    {
Packit 030a23 
	result = (((result & 0xff000000) >>  0) |
Packit 030a23 
	          ((result & 0x00ff0000) >> 16) |
Packit 030a23 
	          ((result & 0x0000ff00) >>  0) |
Packit 030a23 
	          ((result & 0x000000ff) << 16));
Packit 030a23 
    }
Packit 030a23
Packit 030a23 
    return result;
Packit 030a23 
}

Powered by Pagure 5.13.3

SSH Hostkey/Fingerprint | Documentation