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366 lines
9.9 KiB
366 lines
9.9 KiB
/*
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* Copyright 2020 Collabora, Ltd.
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* Copyright 2021 Advanced Micro Devices, Inc.
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*
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* Permission is hereby granted, free of charge, to any person obtaining
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* a copy of this software and associated documentation files (the
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* "Software"), to deal in the Software without restriction, including
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* without limitation the rights to use, copy, modify, merge, publish,
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* distribute, sublicense, and/or sell copies of the Software, and to
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* permit persons to whom the Software is furnished to do so, subject to
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* the following conditions:
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*
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* The above copyright notice and this permission notice (including the
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* next paragraph) shall be included in all copies or substantial
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* portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
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* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
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* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
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* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
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* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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* SOFTWARE.
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*/
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#include "config.h"
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#include <math.h>
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#include <stdio.h>
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#include "weston-test-client-helper.h"
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#include "weston-test-fixture-compositor.h"
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#include "image-iter.h"
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#include "color_util.h"
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struct setup_args {
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struct fixture_metadata meta;
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enum renderer_type renderer;
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bool color_management;
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};
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static const int ALPHA_STEPS = 256;
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static const int BLOCK_WIDTH = 3;
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static const struct setup_args my_setup_args[] = {
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{
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.renderer = RENDERER_PIXMAN,
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.color_management = false,
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.meta.name = "pixman"
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},
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{
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.renderer = RENDERER_GL,
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.color_management = false,
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.meta.name = "GL"
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},
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{
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.renderer = RENDERER_GL,
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.color_management = true,
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.meta.name = "GL sRGB EOTF"
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},
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};
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static enum test_result_code
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fixture_setup(struct weston_test_harness *harness, const struct setup_args *arg)
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{
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struct compositor_setup setup;
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compositor_setup_defaults(&setup);
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setup.renderer = arg->renderer;
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setup.width = BLOCK_WIDTH * ALPHA_STEPS;
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setup.height = 16;
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setup.shell = SHELL_TEST_DESKTOP;
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if (arg->color_management) {
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weston_ini_setup(&setup,
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cfgln("[core]"),
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cfgln("color-management=true"));
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}
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return weston_test_harness_execute_as_client(harness, &setup);
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}
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DECLARE_FIXTURE_SETUP_WITH_ARG(fixture_setup, my_setup_args, meta);
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static uint32_t
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premult_color(uint32_t a, uint32_t r, uint32_t g, uint32_t b)
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{
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uint32_t c = 0;
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c |= a << 24;
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c |= (a * r / 255) << 16;
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c |= (a * g / 255) << 8;
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c |= a * b / 255;
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return c;
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}
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static void
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fill_alpha_pattern(struct buffer *buf)
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{
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struct image_header ih = image_header_from(buf->image);
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int y;
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assert(ih.pixman_format == PIXMAN_a8r8g8b8);
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assert(ih.width == BLOCK_WIDTH * ALPHA_STEPS);
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for (y = 0; y < ih.height; y++) {
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uint32_t *row = image_header_get_row_u32(&ih, y);
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uint32_t step;
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for (step = 0; step < (uint32_t)ALPHA_STEPS; step++) {
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uint32_t alpha = step * 255 / (ALPHA_STEPS - 1);
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uint32_t color;
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int i;
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color = premult_color(alpha, 0, 255 - alpha, 255);
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for (i = 0; i < BLOCK_WIDTH; i++)
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*row++ = color;
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}
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}
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}
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enum blend_space {
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BLEND_NONLINEAR,
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BLEND_LINEAR,
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};
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static void
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compare_sRGB_blend_a8r8g8b8(uint32_t bg32, uint32_t fg32, uint32_t dst32,
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struct rgb_diff_stat *diffstat,
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enum blend_space space)
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{
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struct color_float bg = a8r8g8b8_to_float(bg32);
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struct color_float fg = a8r8g8b8_to_float(fg32);
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struct color_float dst = a8r8g8b8_to_float(dst32);
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struct color_float ref;
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int i;
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bg = color_float_unpremult(bg);
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fg = color_float_unpremult(fg);
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dst = color_float_unpremult(dst);
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if (space == BLEND_LINEAR) {
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sRGB_linearize(&bg);
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sRGB_linearize(&fg);
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}
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for (i = 0; i < COLOR_CHAN_NUM; i++)
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ref.rgb[i] = (1.0f - fg.a) * bg.rgb[i] + fg.a * fg.rgb[i];
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if (space == BLEND_LINEAR)
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sRGB_delinearize(&ref);
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rgb_diff_stat_update(diffstat, &ref, &dst, &fg);
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}
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static uint8_t
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red(uint32_t v)
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{
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return (v >> 16) & 0xff;
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}
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static uint8_t
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blue(uint32_t v)
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{
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return v & 0xff;
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}
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static bool
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pixels_monotonic(const uint32_t *row, int x)
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{
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bool ret = true;
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if (red(row[x + 1]) > red(row[x])) {
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testlog("pixel %d -> next: red value increases\n", x);
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ret = false;
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}
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if (blue(row[x + 1]) < blue(row[x])) {
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testlog("pixel %d -> next: blue value decreases\n", x);
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ret = false;
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}
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return ret;
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}
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static void *
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get_middle_row(struct buffer *buf)
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{
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struct image_header ih = image_header_from(buf->image);
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assert(ih.width >= BLOCK_WIDTH * ALPHA_STEPS);
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assert(ih.height >= BLOCK_WIDTH);
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return image_header_get_row_u32(&ih, (BLOCK_WIDTH - 1) / 2);
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}
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static bool
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check_blend_pattern(struct buffer *bg, struct buffer *fg, struct buffer *shot,
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enum blend_space space)
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{
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FILE *dump = NULL;
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#if 0
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/*
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* This file can be loaded in Octave for visualization. Find the script
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* in tests/visualization/weston_plot_rgb_diff_stat.m and call it with
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*
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* weston_plot_rgb_diff_stat('alpha_blend-f01-dump.txt', 255, 8)
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*/
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dump = fopen_dump_file("dump");
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#endif
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/*
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* Allow for +/- 1.5 code points of error in non-linear 8-bit channel
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* value. This is necessary for the BLEND_LINEAR case.
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*
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* With llvmpipe, we could go as low as +/- 0.65 code points of error
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* and still pass.
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*
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* AMD Polaris 11 would be ok with +/- 1.0 code points error threshold
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* if not for one particular case of blending (a=254, r=0) into r=255,
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* which results in error of 1.29 code points.
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*/
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const float tolerance = 1.5f / 255.f;
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uint32_t *bg_row = get_middle_row(bg);
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uint32_t *fg_row = get_middle_row(fg);
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uint32_t *shot_row = get_middle_row(shot);
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struct rgb_diff_stat diffstat = { .dump = dump, };
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bool ret = true;
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int x;
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unsigned i;
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for (x = 0; x < BLOCK_WIDTH * ALPHA_STEPS - 1; x++) {
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if (!pixels_monotonic(shot_row, x))
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ret = false;
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compare_sRGB_blend_a8r8g8b8(bg_row[x], fg_row[x], shot_row[x],
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&diffstat, space);
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}
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for (i = 0; i < COLOR_CHAN_NUM; i++) {
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if (diffstat.rgb[i].min <= -tolerance ||
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diffstat.rgb[i].max >= tolerance)
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ret = false;
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}
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rgb_diff_stat_print(&diffstat, __func__, 8);
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if (dump)
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fclose(dump);
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return ret;
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}
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/*
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* Test that alpha blending is roughly correct, and that an alpha ramp
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* results in a strictly monotonic color ramp. This should ensure that any
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* animation that varies alpha never goes "backwards" as that is easily
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* noticeable.
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*
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* The background is a constant color. On top of that, there is an
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* alpha-blended gradient with ramps in both alpha and color. Sub-surface
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* ensures the correct positioning and stacking.
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*
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* The gradient consists of ALPHA_STEPS number of blocks. Block size is
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* BLOCK_WIDTH x BLOCK_WIDTH and a block has a uniform color.
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*
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* In the blending result over x axis:
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* - red goes from 1.0 to 0.0, monotonic
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* - green is not monotonic
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* - blue goes from 0.0 to 1.0, monotonic
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*
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* This test has two modes: BLEND_NONLINEAR and BLEND_LINEAR.
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*
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* BLEND_NONLINEAR does blending with pixel values as is, which are non-linear,
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* and therefore result in "physically incorrect" blending result. Yet, people
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* have accustomed to seeing this effect. This mode hits pipeline_premult()
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* in fragment.glsl.
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*
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* BLEND_LINEAR has sRGB encoded pixels (non-linear). These are converted to
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* linear light (optical) values, blended, and converted back to non-linear
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* (electrical) values. This results in "physically more correct" blending
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* result for some value of "physical". This mode hits pipeline_straight()
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* in fragment.glsl, and tests even more things:
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* - gl-renderer implementation of 1D LUT is correct
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* - color-lcms instantiates the correct sRGB EOTF and inverse LUTs
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* - color space conversions do not happen when both content and output are
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* using their default color spaces
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* - blending through gl-renderer shadow framebuffer
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*/
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TEST(alpha_blend)
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{
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const int width = BLOCK_WIDTH * ALPHA_STEPS;
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const int height = BLOCK_WIDTH;
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const pixman_color_t background_color = {
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.red = 0xffff,
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.green = 0x8080,
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.blue = 0x0000,
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.alpha = 0xffff
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};
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const struct setup_args *args;
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struct client *client;
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struct buffer *bg;
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struct buffer *fg;
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struct wl_subcompositor *subco;
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struct wl_surface *surf;
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struct wl_subsurface *sub;
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struct buffer *shot;
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bool match;
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int seq_no;
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enum blend_space space;
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args = &my_setup_args[get_test_fixture_index()];
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if (args->color_management) {
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seq_no = 1;
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space = BLEND_LINEAR;
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} else {
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seq_no = 0;
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space = BLEND_NONLINEAR;
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}
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client = create_client();
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subco = bind_to_singleton_global(client, &wl_subcompositor_interface, 1);
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/* background window content */
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bg = create_shm_buffer_a8r8g8b8(client, width, height);
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fill_image_with_color(bg->image, &background_color);
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/* background window, main surface */
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client->surface = create_test_surface(client);
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client->surface->width = width;
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client->surface->height = height;
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client->surface->buffer = bg; /* pass ownership */
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surface_set_opaque_rect(client->surface,
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&(struct rectangle){ 0, 0, width, height });
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/* foreground blended content */
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fg = create_shm_buffer_a8r8g8b8(client, width, height);
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fill_alpha_pattern(fg);
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/* foreground window, sub-surface */
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surf = wl_compositor_create_surface(client->wl_compositor);
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sub = wl_subcompositor_get_subsurface(subco, surf, client->surface->wl_surface);
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/* sub-surface defaults to position 0, 0, top-most, synchronized */
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wl_surface_attach(surf, fg->proxy, 0, 0);
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wl_surface_damage(surf, 0, 0, width, height);
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wl_surface_commit(surf);
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/* attach, damage, commit background window */
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move_client(client, 0, 0);
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shot = capture_screenshot_of_output(client);
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assert(shot);
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match = verify_image(shot, "alpha_blend", seq_no, NULL, seq_no);
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assert(check_blend_pattern(bg, fg, shot, space));
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assert(match);
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buffer_destroy(shot);
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wl_subsurface_destroy(sub);
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wl_surface_destroy(surf);
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buffer_destroy(fg);
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wl_subcompositor_destroy(subco);
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client_destroy(client); /* destroys bg */
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}
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