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cairo/test/buffer-diff.c
Chris Wilson 436c0c8be2 [test] Preparatory work for running under memfault. 
In order to run under memfault, the framework is first extended to handle
running concurrent tests - i.e. multi-threading. (Not that this is a
requirement for memfault, instead it shares a common goal of storing
per-test data).  To that end all the global data is moved into a per-test
context and the targets are adjusted to avoid overlap on shared, global
resources (such as output files and frame buffers). In order to preserve
the simplicity of the standard draw routines, the context is not passed
explicitly as a parameter to the routines, but is instead attached to the
cairo_t via the user_data.

For the masochist, to enable the tests to be run across multiple threads
simply set the environment variable CAIRO_TEST_NUM_THREADS to the desired
number.

In the long run, we can hope the need for memfault (runtime testing of
error paths) will be mitigated by static analysis. A promising candidate
for this task would appear to be http://hal.cs.berkeley.edu/cil/.
2008-08-13 21:54:59 +01:00

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/* imagediff - Compare two images
*
* Copyright © 2004 Richard D. Worth
*
* 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 Richard Worth
* not be used in advertising or publicity pertaining to distribution
* of the software without specific, written prior permission.
* Richard Worth makes no representations about the suitability of this
* software for any purpose. It is provided "as is" without express
* or implied warranty.
*
* RICHARD WORTH DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN
* NO EVENT SHALL RICHARD WORTH 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.
*
* Author: Richard D. Worth <richard@theworths.org> */
#if HAVE_CONFIG_H
#include "config.h"
#endif
#include <stdio.h>
#include <stdlib.h>
#ifdef HAVE_UNISTD_H
#include <unistd.h>
#endif
#include <errno.h>
#include <string.h>
#include <pixman.h>
#include "cairo-test.h"
#include "pdiff.h"
#include "buffer-diff.h"
#include "xmalloc.h"
/* Don't allow any differences greater than this value, even if pdiff
* claims that the images are identical */
#define PERCEPTUAL_DIFF_THRESHOLD 25
static void
xunlink (const cairo_test_context_t *ctx, const char *pathname)
{
if (unlink (pathname) < 0 && errno != ENOENT) {
cairo_test_log (ctx, " Error: Cannot remove %s: %s\n",
pathname, strerror (errno));
exit (CAIRO_TEST_FAILURE);
}
}
/* Compare two buffers, returning the number of pixels that are
* different and the maximum difference of any single color channel in
* result_ret.
*
* This function should be rewritten to compare all formats supported by
* cairo_format_t instead of taking a mask as a parameter.
*/
static void
buffer_diff_core (unsigned char *_buf_a,
unsigned char *_buf_b,
unsigned char *_buf_diff,
int width,
int height,
int stride,
uint32_t mask,
buffer_diff_result_t *result_ret)
{
int x, y;
uint32_t *row_a, *row_b, *row;
buffer_diff_result_t result = {0, 0};
uint32_t *buf_a = (uint32_t*)_buf_a;
uint32_t *buf_b = (uint32_t*)_buf_b;
uint32_t *buf_diff = (uint32_t*)_buf_diff;
stride /= sizeof(uint32_t);
for (y = 0; y < height; y++)
{
row_a = buf_a + y * stride;
row_b = buf_b + y * stride;
row = buf_diff + y * stride;
for (x = 0; x < width; x++)
{
/* check if the pixels are the same */
if ((row_a[x] & mask) != (row_b[x] & mask)) {
int channel;
uint32_t diff_pixel = 0;
/* calculate a difference value for all 4 channels */
for (channel = 0; channel < 4; channel++) {
int value_a = (row_a[x] >> (channel*8)) & 0xff;
int value_b = (row_b[x] >> (channel*8)) & 0xff;
unsigned int diff;
diff = abs (value_a - value_b);
if (diff > result.max_diff)
result.max_diff = diff;
diff *= 4; /* emphasize */
if (diff)
diff += 128; /* make sure it's visible */
if (diff > 255)
diff = 255;
diff_pixel |= diff << (channel*8);
}
result.pixels_changed++;
row[x] = diff_pixel;
} else {
row[x] = 0;
}
row[x] |= 0xff000000; /* Set ALPHA to 100% (opaque) */
}
}
*result_ret = result;
}
void
compare_surfaces (const cairo_test_context_t *ctx,
cairo_surface_t *surface_a,
cairo_surface_t *surface_b,
cairo_surface_t *surface_diff,
buffer_diff_result_t *result)
{
/* These default values were taken straight from the
* perceptualdiff program. We'll probably want to tune these as
* necessary. */
double gamma = 2.2;
double luminance = 100.0;
double field_of_view = 45.0;
int discernible_pixels_changed;
/* First, we run cairo's old buffer_diff algorithm which looks for
* pixel-perfect images, (we do this first since the test suite
* runs about 3x slower if we run pdiff_compare first).
*/
buffer_diff_core (cairo_image_surface_get_data (surface_a),
cairo_image_surface_get_data (surface_b),
cairo_image_surface_get_data (surface_diff),
cairo_image_surface_get_width (surface_a),
cairo_image_surface_get_height (surface_a),
cairo_image_surface_get_stride (surface_a),
0xffffffff,
result);
if (result->pixels_changed == 0)
return;
cairo_test_log (ctx,
"%d pixels differ (with maximum difference of %d) from reference image\n",
result->pixels_changed, result->max_diff);
/* Then, if there are any different pixels, we give the pdiff code
* a crack at the images. If it decides that there are no visually
* discernible differences in any pixels, then we accept this
* result as good enough.
*
* Only let pdiff have a crack at the comparison if the max difference
* is lower than a threshold, otherwise some problems could be masked.
*/
if (result->max_diff < PERCEPTUAL_DIFF_THRESHOLD) {
discernible_pixels_changed = pdiff_compare (surface_a, surface_b,
gamma, luminance, field_of_view);
if (discernible_pixels_changed == 0) {
result->pixels_changed = 0;
cairo_test_log (ctx,
"But perceptual diff finds no visually discernible difference.\n"
"Accepting result.\n");
}
}
}
void
buffer_diff_noalpha (unsigned char *buf_a,
unsigned char *buf_b,
unsigned char *buf_diff,
int width,
int height,
int stride,
buffer_diff_result_t *result)
{
buffer_diff_core(buf_a, buf_b, buf_diff,
width, height, stride, 0x00ffffff,
result);
}
static cairo_status_t
stdio_write_func (void *closure, const unsigned char *data, unsigned int length)
{
FILE *file = closure;
if (fwrite (data, 1, length, file) != length)
return CAIRO_STATUS_WRITE_ERROR;
return CAIRO_STATUS_SUCCESS;
}
/* Flatten an ARGB surface by blending it over white. The resulting
* surface, (still in ARGB32 format, but with only alpha==1.0
* everywhere) is returned in the same surface pointer.
*
* The original surface will be destroyed.
*
* The (x,y) value specify an origin of interest for the original
* image. The flattened image will be generated only from the box
* extending from (x,y) to (width,height).
*/
static void
flatten_surface (const cairo_test_context_t *ctx,
cairo_surface_t **surface,
int x, int y)
{
cairo_surface_t *flat;
cairo_t *cr;
flat = cairo_image_surface_create (CAIRO_FORMAT_ARGB32,
cairo_image_surface_get_width (*surface) - x,
cairo_image_surface_get_height (*surface) - y);
cairo_surface_set_device_offset (flat, -x, -y);
cr = cairo_create (flat);
cairo_surface_destroy (flat);
cairo_set_source_rgb (cr, 1, 1, 1);
cairo_paint (cr);
cairo_set_source_surface (cr, *surface, 0, 0);
cairo_surface_destroy (*surface);
cairo_paint (cr);
*surface = cairo_surface_reference (cairo_get_target (cr));
cairo_destroy (cr);
}
/* Given an image surface, create a new surface that has the same
* contents as the sub-surface with its origin at x,y.
*
* The original surface will be destroyed.
*/
static void
extract_sub_surface (const cairo_test_context_t *ctx,
cairo_surface_t **surface,
int x, int y)
{
cairo_surface_t *sub;
cairo_t *cr;
sub = cairo_image_surface_create (CAIRO_FORMAT_ARGB32,
cairo_image_surface_get_width (*surface) - x,
cairo_image_surface_get_height (*surface) - y);
/* We don't use a device offset like flatten_surface. That's not
* for any important reason, (the results should be
* identical). This style just seemed more natural to me this
* time, so I'm leaving both here so I can look at both to see
* which I like better. */
cr = cairo_create (sub);
cairo_surface_destroy (sub);
cairo_set_source_surface (cr, *surface, -x, -y);
cairo_surface_destroy (*surface);
cairo_set_operator (cr, CAIRO_OPERATOR_SOURCE);
cairo_paint (cr);
*surface = cairo_surface_reference (cairo_get_target (cr));
cairo_destroy (cr);
}
/* Image comparison code courtesy of Richard Worth <richard@theworths.org>
* Returns number of pixels changed, (or -1 on error).
* Also saves a "diff" image intended to visually show where the
* images differ.
*
* The return value simply indicates whether a check was successfully
* made, (as opposed to a file-not-found condition or similar). It
* does not indicate anything about how much the images differ. For
* that, see result.
*
* One failure mode is if the two images provided do not have the same
* dimensions. In this case, this function will return
* CAIRO_STATUS_SURFACE_TYPE_MISMATCH (which is a bit of an abuse, but
* oh well).
*/
static cairo_status_t
image_diff_core (const cairo_test_context_t *ctx,
const char *filename_a,
const char *filename_b,
const char *filename_diff,
int ax,
int ay,
int bx,
int by,
buffer_diff_result_t *result,
cairo_bool_t flatten)
{
cairo_status_t status;
unsigned int width_a, height_a, stride_a;
unsigned int width_b, height_b, stride_b;
cairo_surface_t *surface_a, *surface_b, *surface_diff;
surface_a = cairo_image_surface_create_from_png (filename_a);
status = cairo_surface_status (surface_a);
if (status) {
cairo_test_log (ctx, "Error: Failed to create surface from %s: %s\n",
filename_a, cairo_status_to_string (status));
return status;
}
surface_b = cairo_image_surface_create_from_png (filename_b);
status = cairo_surface_status (surface_b);
if (status) {
cairo_test_log (ctx, "Error: Failed to create surface from %s: %s\n",
filename_b, cairo_status_to_string (status));
cairo_surface_destroy (surface_a);
return status;
}
if (flatten) {
flatten_surface (ctx, &surface_a, ax, ay);
flatten_surface (ctx, &surface_b, bx, by);
ax = ay = bx = by = 0;
}
if (ax || ay) {
extract_sub_surface (ctx, &surface_a, ax, ay);
ax = ay = 0;
}
if (bx || by) {
extract_sub_surface (ctx, &surface_b, bx, by);
bx = by = 0;
}
status = cairo_surface_status (surface_a);
if (status) {
cairo_test_log (ctx, "Error: Failed to extract surface from %s: %s\n",
filename_a, cairo_status_to_string (status));
cairo_surface_destroy (surface_a);
cairo_surface_destroy (surface_b);
return status;
}
status = cairo_surface_status (surface_b);
if (status) {
cairo_test_log (ctx, "Error: Failed to extract surface from %s: %s\n",
filename_b, cairo_status_to_string (status));
cairo_surface_destroy (surface_a);
cairo_surface_destroy (surface_b);
return status;
}
width_a = cairo_image_surface_get_width (surface_a);
height_a = cairo_image_surface_get_height (surface_a);
stride_a = cairo_image_surface_get_stride (surface_a);
width_b = cairo_image_surface_get_width (surface_b);
height_b = cairo_image_surface_get_height (surface_b);
stride_b = cairo_image_surface_get_stride (surface_b);
if (width_a != width_b ||
height_a != height_b ||
stride_a != stride_b)
{
cairo_test_log (ctx, "Error: Image size mismatch: (%dx%d) vs. (%dx%d)\n"
" for %s vs. %s\n",
width_a, height_a,
width_b, height_b,
filename_a, filename_b);
cairo_surface_destroy (surface_a);
cairo_surface_destroy (surface_b);
return CAIRO_STATUS_SURFACE_TYPE_MISMATCH;
}
surface_diff = cairo_image_surface_create (CAIRO_FORMAT_ARGB32,
width_a, height_a);
status = cairo_surface_status (surface_diff);
if (status) {
cairo_test_log (ctx, "Error: Failed to allocate surface to hold differences\n");
cairo_surface_destroy (surface_a);
cairo_surface_destroy (surface_b);
return CAIRO_STATUS_NO_MEMORY;
}
compare_surfaces (ctx, surface_a, surface_b, surface_diff, result);
status = CAIRO_STATUS_SUCCESS;
if (result->pixels_changed) {
FILE *png_file;
if (filename_diff) {
png_file = fopen (filename_diff, "wb");
if (png_file == NULL) {
int err = errno;
cairo_surface_destroy (surface_a);
cairo_surface_destroy (surface_b);
cairo_surface_destroy (surface_diff);
switch (err) {
case ENOMEM:
return CAIRO_STATUS_NO_MEMORY;
default:
return CAIRO_STATUS_WRITE_ERROR;
}
}
} else
png_file = stdout;
status = cairo_surface_write_to_png_stream (surface_diff,
stdio_write_func,
png_file);
if (png_file != stdout)
fclose (png_file);
} else {
if (filename_diff)
xunlink (ctx, filename_diff);
}
cairo_surface_destroy (surface_a);
cairo_surface_destroy (surface_b);
cairo_surface_destroy (surface_diff);
return status;
}
cairo_status_t
image_diff (const cairo_test_context_t *ctx,
const char *filename_a,
const char *filename_b,
const char *filename_diff,
int ax,
int ay,
int bx,
int by,
buffer_diff_result_t *result)
{
return image_diff_core (ctx,
filename_a, filename_b, filename_diff,
ax, ay, bx, by,
result, FALSE);
}
cairo_status_t
image_diff_flattened (const cairo_test_context_t *ctx,
const char *filename_a,
const char *filename_b,
const char *filename_diff,
int ax,
int ay,
int bx,
int by,
buffer_diff_result_t *result)
{
return image_diff_core (ctx,
filename_a, filename_b, filename_diff,
ax, ay, bx, by,
result, TRUE);
}
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