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206 lines
5.6 KiB
C
206 lines
5.6 KiB
C
/*****************************************************************************
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* This file is part of Kvazaar HEVC encoder.
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*
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* Copyright (C) 2013-2015 Tampere University of Technology and others (see
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* COPYING file).
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*
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* Kvazaar is free software: you can redistribute it and/or modify
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* it under the terms of the GNU Lesser General Public License version 2.1 as
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* published by the Free Software Foundation.
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*
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* Kvazaar is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with Kvazaar. If not, see <http://www.gnu.org/licenses/>.
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****************************************************************************/
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#include "greatest/greatest.h"
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#include "test_strategies.h"
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#include "src/image.h"
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#include "src/strategyselector.h"
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#include <math.h>
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//////////////////////////////////////////////////////////////////////////
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// MACROS
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#define NUM_TESTS 2
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#define LCU_MAX_LOG_W 6
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#define LCU_MIN_LOG_W 2
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//////////////////////////////////////////////////////////////////////////
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// GLOBALS
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pixel_t * bufs[NUM_TESTS][6][2];
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static struct {
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int log_width; // for selecting dim from bufs
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cost_pixel_nxn_func * tested_func;
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} test_env;
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//////////////////////////////////////////////////////////////////////////
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// SETUP, TEARDOWN AND HELPER FUNCTIONS
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static void init_gradient(int x_px, int y_px, int width, int slope, pixel_t *buf)
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{
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for (int y = 0; y < width; ++y) {
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for (int x = 0; x < width; ++x) {
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int diff_x = x_px - x;
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int diff_y = y_px - y;
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int val = sqrt(diff_x * diff_x + diff_y * diff_y) + 0.5 + slope;
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buf[y * width + x] = CLIP(0, 255, val);
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}
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}
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}
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static void setup_tests()
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{
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for (int test = 0; test < NUM_TESTS; ++test) {
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for (int w = LCU_MIN_LOG_W; w <= LCU_MAX_LOG_W; ++w) {
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bufs[test][w][0] = 0;
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bufs[test][w][1] = 0;
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}
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for (int w = LCU_MIN_LOG_W; w <= LCU_MAX_LOG_W; ++w) {
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unsigned size = 1 << (w * 2);
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bufs[test][w][0] = malloc(size * sizeof(pixel_t) + SIMD_ALIGNMENT);
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bufs[test][w][0] = ALIGNED_POINTER(bufs[test][w][0], SIMD_ALIGNMENT);
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bufs[test][w][1] = malloc(size * sizeof(pixel_t) + SIMD_ALIGNMENT);
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bufs[test][w][1] = ALIGNED_POINTER(bufs[test][w][1], SIMD_ALIGNMENT);
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}
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}
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int test = 0;
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for (int w = LCU_MIN_LOG_W; w <= LCU_MAX_LOG_W; ++w) {
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unsigned size = 1 << (w * 2);
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FILL_ARRAY(bufs[test][w][0], 0, size);
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FILL_ARRAY(bufs[test][w][1], 255, size);
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}
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test = 1;
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for (int w = LCU_MIN_LOG_W; w <= LCU_MAX_LOG_W; ++w) {
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unsigned width = 1 << w;
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unsigned size = 1 << (w * 2);
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init_gradient(3, 1, width, 1, bufs[test][w][0]);
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//init_gradient(width / 2, 0, width, 1, bufs[test][w][1]);
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FILL_ARRAY(bufs[test][w][1], 128, size);
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}
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}
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static void tear_down_tests()
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{
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for (int test = 0; test < NUM_TESTS; ++test) {
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for (int log_width = 2; log_width <= 6; ++log_width) {
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//free(bufs[test][log_width][0]);
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//free(bufs[test][log_width][1]);
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}
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}
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}
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static unsigned test_calc_sad(const pixel_t * buf1, const pixel_t * buf2, int dim)
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{
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unsigned result = 0;
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for (int i = 0; i < dim * dim; ++i) {
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result += abs(buf1[i] - buf2[i]);
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}
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return result;
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}
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//////////////////////////////////////////////////////////////////////////
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// TESTS
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/**
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* Test that the maximum SAD value for a given buffer size doesn't overflow.
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*/
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TEST test_black_and_white(void)
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{
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const int test = 0;
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const int width = 1 << test_env.log_width;
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pixel_t * buf1 = bufs[test][test_env.log_width][0];
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pixel_t * buf2 = bufs[test][test_env.log_width][1];
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unsigned result1 = test_env.tested_func(buf1, buf2);
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unsigned result2 = test_env.tested_func(buf2, buf1);
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// Order of parameters must not matter.
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ASSERT_EQ(result1, result2);
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// Result matches trivial implementation.
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ASSERT_EQ(result1, 255 * width * width);
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PASS();
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}
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/**
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* Test that the maximum SAD value for a given buffer size doesn't overflow.
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*/
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TEST test_gradient(void)
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{
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const int test = 1;
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const int width = 1 << test_env.log_width;
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pixel_t * buf1 = bufs[test][test_env.log_width][0];
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pixel_t * buf2 = bufs[test][test_env.log_width][1];
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unsigned result = test_calc_sad(buf1, buf2, width);
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unsigned result1 = test_env.tested_func(buf1, buf2);
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unsigned result2 = test_env.tested_func(buf2, buf1);
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// Order of parameters must not matter.
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ASSERT_EQ(result1, result2);
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// Result matches trivial implementation.
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ASSERT_EQ(result1, result);
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PASS();
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}
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//////////////////////////////////////////////////////////////////////////
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// TEST FIXTURES
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SUITE(intra_sad_tests)
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{
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//SET_SETUP(sad_setup);
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//SET_TEARDOWN(sad_teardown);
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setup_tests();
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// Loop through all strategies picking out the intra sad ones and run
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// selectec strategies though all tests.
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for (unsigned i = 0; i < strategies.count; ++i) {
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const char * type = strategies.strategies[i].type;
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if (strcmp(type, "sad_8bit_4x4") == 0) {
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test_env.log_width = 2;
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} else if (strcmp(type, "sad_8bit_8x8") == 0) {
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test_env.log_width = 3;
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} else if (strcmp(type, "sad_8bit_16x16") == 0) {
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test_env.log_width = 4;
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} else if (strcmp(type, "sad_8bit_32x32") == 0) {
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test_env.log_width = 5;
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} else if (strcmp(type, "sad_8bit_64x64") == 0) {
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test_env.log_width = 6;
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} else {
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continue;
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}
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test_env.tested_func = strategies.strategies[i].fptr;
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// Tests
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RUN_TEST(test_black_and_white);
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RUN_TEST(test_gradient);
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}
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tear_down_tests();
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}
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