1*4e366538SXin Li /*
2*4e366538SXin Li * Copyright 2022 The LibYuv Project Authors. All rights reserved.
3*4e366538SXin Li *
4*4e366538SXin Li * Use of this source code is governed by a BSD-style license
5*4e366538SXin Li * that can be found in the LICENSE file in the root of the source
6*4e366538SXin Li * tree. An additional intellectual property rights grant can be found
7*4e366538SXin Li * in the file PATENTS. All contributing project authors may
8*4e366538SXin Li * be found in the AUTHORS file in the root of the source tree.
9*4e366538SXin Li */
10*4e366538SXin Li
11*4e366538SXin Li #include <stdlib.h>
12*4e366538SXin Li #include <time.h>
13*4e366538SXin Li
14*4e366538SXin Li #include "../unit_test/unit_test.h"
15*4e366538SXin Li #include "libyuv/cpu_id.h"
16*4e366538SXin Li #include "libyuv/scale_rgb.h"
17*4e366538SXin Li
18*4e366538SXin Li namespace libyuv {
19*4e366538SXin Li
20*4e366538SXin Li #define STRINGIZE(line) #line
21*4e366538SXin Li #define FILELINESTR(file, line) file ":" STRINGIZE(line)
22*4e366538SXin Li
23*4e366538SXin Li #if !defined(DISABLE_SLOW_TESTS) || defined(__x86_64__) || defined(__i386__)
24*4e366538SXin Li // SLOW TESTS are those that are unoptimized C code.
25*4e366538SXin Li // FULL TESTS are optimized but test many variations of the same code.
26*4e366538SXin Li #define ENABLE_FULL_TESTS
27*4e366538SXin Li #endif
28*4e366538SXin Li
29*4e366538SXin Li // Test scaling with C vs Opt and return maximum pixel difference. 0 = exact.
RGBTestFilter(int src_width,int src_height,int dst_width,int dst_height,FilterMode f,int benchmark_iterations,int disable_cpu_flags,int benchmark_cpu_info)30*4e366538SXin Li static int RGBTestFilter(int src_width,
31*4e366538SXin Li int src_height,
32*4e366538SXin Li int dst_width,
33*4e366538SXin Li int dst_height,
34*4e366538SXin Li FilterMode f,
35*4e366538SXin Li int benchmark_iterations,
36*4e366538SXin Li int disable_cpu_flags,
37*4e366538SXin Li int benchmark_cpu_info) {
38*4e366538SXin Li if (!SizeValid(src_width, src_height, dst_width, dst_height)) {
39*4e366538SXin Li return 0;
40*4e366538SXin Li }
41*4e366538SXin Li
42*4e366538SXin Li int i, j;
43*4e366538SXin Li const int b = 0; // 128 to test for padding/stride.
44*4e366538SXin Li int64_t src_rgb_plane_size =
45*4e366538SXin Li (Abs(src_width) + b * 3) * (Abs(src_height) + b * 3) * 3LL;
46*4e366538SXin Li int src_stride_rgb = (b * 3 + Abs(src_width)) * 3;
47*4e366538SXin Li
48*4e366538SXin Li align_buffer_page_end(src_rgb, src_rgb_plane_size);
49*4e366538SXin Li if (!src_rgb) {
50*4e366538SXin Li printf("Skipped. Alloc failed " FILELINESTR(__FILE__, __LINE__) "\n");
51*4e366538SXin Li return 0;
52*4e366538SXin Li }
53*4e366538SXin Li MemRandomize(src_rgb, src_rgb_plane_size);
54*4e366538SXin Li
55*4e366538SXin Li int64_t dst_rgb_plane_size = (dst_width + b * 3) * (dst_height + b * 3) * 3LL;
56*4e366538SXin Li int dst_stride_rgb = (b * 3 + dst_width) * 3;
57*4e366538SXin Li
58*4e366538SXin Li align_buffer_page_end(dst_rgb_c, dst_rgb_plane_size);
59*4e366538SXin Li align_buffer_page_end(dst_rgb_opt, dst_rgb_plane_size);
60*4e366538SXin Li if (!dst_rgb_c || !dst_rgb_opt) {
61*4e366538SXin Li printf("Skipped. Alloc failed " FILELINESTR(__FILE__, __LINE__) "\n");
62*4e366538SXin Li return 0;
63*4e366538SXin Li }
64*4e366538SXin Li memset(dst_rgb_c, 2, dst_rgb_plane_size);
65*4e366538SXin Li memset(dst_rgb_opt, 3, dst_rgb_plane_size);
66*4e366538SXin Li
67*4e366538SXin Li // Warm up both versions for consistent benchmarks.
68*4e366538SXin Li MaskCpuFlags(disable_cpu_flags); // Disable all CPU optimization.
69*4e366538SXin Li RGBScale(src_rgb + (src_stride_rgb * b) + b * 3, src_stride_rgb, src_width,
70*4e366538SXin Li src_height, dst_rgb_c + (dst_stride_rgb * b) + b * 3, dst_stride_rgb,
71*4e366538SXin Li dst_width, dst_height, f);
72*4e366538SXin Li MaskCpuFlags(benchmark_cpu_info); // Enable all CPU optimization.
73*4e366538SXin Li RGBScale(src_rgb + (src_stride_rgb * b) + b * 3, src_stride_rgb, src_width,
74*4e366538SXin Li src_height, dst_rgb_opt + (dst_stride_rgb * b) + b * 3,
75*4e366538SXin Li dst_stride_rgb, dst_width, dst_height, f);
76*4e366538SXin Li
77*4e366538SXin Li MaskCpuFlags(disable_cpu_flags); // Disable all CPU optimization.
78*4e366538SXin Li double c_time = get_time();
79*4e366538SXin Li RGBScale(src_rgb + (src_stride_rgb * b) + b * 3, src_stride_rgb, src_width,
80*4e366538SXin Li src_height, dst_rgb_c + (dst_stride_rgb * b) + b * 3, dst_stride_rgb,
81*4e366538SXin Li dst_width, dst_height, f);
82*4e366538SXin Li
83*4e366538SXin Li c_time = (get_time() - c_time);
84*4e366538SXin Li
85*4e366538SXin Li MaskCpuFlags(benchmark_cpu_info); // Enable all CPU optimization.
86*4e366538SXin Li double opt_time = get_time();
87*4e366538SXin Li for (i = 0; i < benchmark_iterations; ++i) {
88*4e366538SXin Li RGBScale(src_rgb + (src_stride_rgb * b) + b * 3, src_stride_rgb, src_width,
89*4e366538SXin Li src_height, dst_rgb_opt + (dst_stride_rgb * b) + b * 3,
90*4e366538SXin Li dst_stride_rgb, dst_width, dst_height, f);
91*4e366538SXin Li }
92*4e366538SXin Li opt_time = (get_time() - opt_time) / benchmark_iterations;
93*4e366538SXin Li
94*4e366538SXin Li // Report performance of C vs OPT
95*4e366538SXin Li printf("filter %d - %8d us C - %8d us OPT\n", f,
96*4e366538SXin Li static_cast<int>(c_time * 1e6), static_cast<int>(opt_time * 1e6));
97*4e366538SXin Li
98*4e366538SXin Li // C version may be a little off from the optimized. Order of
99*4e366538SXin Li // operations may introduce rounding somewhere. So do a difference
100*4e366538SXin Li // of the buffers and look to see that the max difference isn't
101*4e366538SXin Li // over 2.
102*4e366538SXin Li int max_diff = 0;
103*4e366538SXin Li for (i = b; i < (dst_height + b); ++i) {
104*4e366538SXin Li for (j = b * 3; j < (dst_width + b) * 3; ++j) {
105*4e366538SXin Li int abs_diff = Abs(dst_rgb_c[(i * dst_stride_rgb) + j] -
106*4e366538SXin Li dst_rgb_opt[(i * dst_stride_rgb) + j]);
107*4e366538SXin Li if (abs_diff > max_diff) {
108*4e366538SXin Li max_diff = abs_diff;
109*4e366538SXin Li }
110*4e366538SXin Li }
111*4e366538SXin Li }
112*4e366538SXin Li
113*4e366538SXin Li free_aligned_buffer_page_end(dst_rgb_c);
114*4e366538SXin Li free_aligned_buffer_page_end(dst_rgb_opt);
115*4e366538SXin Li free_aligned_buffer_page_end(src_rgb);
116*4e366538SXin Li return max_diff;
117*4e366538SXin Li }
118*4e366538SXin Li
119*4e366538SXin Li // The following adjustments in dimensions ensure the scale factor will be
120*4e366538SXin Li // exactly achieved.
121*4e366538SXin Li #define DX(x, nom, denom) static_cast<int>((Abs(x) / nom) * nom)
122*4e366538SXin Li #define SX(x, nom, denom) static_cast<int>((x / nom) * denom)
123*4e366538SXin Li
124*4e366538SXin Li #define TEST_FACTOR1(name, filter, nom, denom, max_diff) \
125*4e366538SXin Li TEST_F(LibYUVScaleTest, RGBScaleDownBy##name##_##filter) { \
126*4e366538SXin Li int diff = RGBTestFilter( \
127*4e366538SXin Li SX(benchmark_width_, nom, denom), SX(benchmark_height_, nom, denom), \
128*4e366538SXin Li DX(benchmark_width_, nom, denom), DX(benchmark_height_, nom, denom), \
129*4e366538SXin Li kFilter##filter, benchmark_iterations_, disable_cpu_flags_, \
130*4e366538SXin Li benchmark_cpu_info_); \
131*4e366538SXin Li EXPECT_LE(diff, max_diff); \
132*4e366538SXin Li }
133*4e366538SXin Li
134*4e366538SXin Li #if defined(ENABLE_FULL_TESTS)
135*4e366538SXin Li // Test a scale factor with all 4 filters. Expect unfiltered to be exact, but
136*4e366538SXin Li // filtering is different fixed point implementations for SSSE3, Neon and C.
137*4e366538SXin Li #define TEST_FACTOR(name, nom, denom) \
138*4e366538SXin Li TEST_FACTOR1(name, None, nom, denom, 0) \
139*4e366538SXin Li TEST_FACTOR1(name, Linear, nom, denom, 3) \
140*4e366538SXin Li TEST_FACTOR1(name, Bilinear, nom, denom, 3) \
141*4e366538SXin Li TEST_FACTOR1(name, Box, nom, denom, 3)
142*4e366538SXin Li #else
143*4e366538SXin Li // Test a scale factor with Bilinear.
144*4e366538SXin Li #define TEST_FACTOR(name, nom, denom) \
145*4e366538SXin Li TEST_FACTOR1(name, Bilinear, nom, denom, 3)
146*4e366538SXin Li #endif
147*4e366538SXin Li
148*4e366538SXin Li TEST_FACTOR(2, 1, 2)
149*4e366538SXin Li #ifndef DISABLE_SLOW_TESTS
150*4e366538SXin Li TEST_FACTOR(4, 1, 4)
151*4e366538SXin Li // TEST_FACTOR(8, 1, 8) Disable for benchmark performance.
152*4e366538SXin Li TEST_FACTOR(3by4, 3, 4)
153*4e366538SXin Li TEST_FACTOR(3by8, 3, 8)
154*4e366538SXin Li TEST_FACTOR(3, 1, 3)
155*4e366538SXin Li #endif
156*4e366538SXin Li #undef TEST_FACTOR1
157*4e366538SXin Li #undef TEST_FACTOR
158*4e366538SXin Li #undef SX
159*4e366538SXin Li #undef DX
160*4e366538SXin Li
161*4e366538SXin Li #define TEST_SCALETO1(name, width, height, filter, max_diff) \
162*4e366538SXin Li TEST_F(LibYUVScaleTest, name##To##width##x##height##_##filter) { \
163*4e366538SXin Li int diff = RGBTestFilter(benchmark_width_, benchmark_height_, width, \
164*4e366538SXin Li height, kFilter##filter, benchmark_iterations_, \
165*4e366538SXin Li disable_cpu_flags_, benchmark_cpu_info_); \
166*4e366538SXin Li EXPECT_LE(diff, max_diff); \
167*4e366538SXin Li } \
168*4e366538SXin Li TEST_F(LibYUVScaleTest, name##From##width##x##height##_##filter) { \
169*4e366538SXin Li int diff = RGBTestFilter(width, height, Abs(benchmark_width_), \
170*4e366538SXin Li Abs(benchmark_height_), kFilter##filter, \
171*4e366538SXin Li benchmark_iterations_, disable_cpu_flags_, \
172*4e366538SXin Li benchmark_cpu_info_); \
173*4e366538SXin Li EXPECT_LE(diff, max_diff); \
174*4e366538SXin Li }
175*4e366538SXin Li
176*4e366538SXin Li #if defined(ENABLE_FULL_TESTS)
177*4e366538SXin Li /// Test scale to a specified size with all 4 filters.
178*4e366538SXin Li #define TEST_SCALETO(name, width, height) \
179*4e366538SXin Li TEST_SCALETO1(name, width, height, None, 0) \
180*4e366538SXin Li TEST_SCALETO1(name, width, height, Linear, 3) \
181*4e366538SXin Li TEST_SCALETO1(name, width, height, Bilinear, 3)
182*4e366538SXin Li #else
183*4e366538SXin Li #define TEST_SCALETO(name, width, height) \
184*4e366538SXin Li TEST_SCALETO1(name, width, height, Bilinear, 3)
185*4e366538SXin Li #endif
186*4e366538SXin Li
187*4e366538SXin Li TEST_SCALETO(RGBScale, 640, 360)
188*4e366538SXin Li #ifndef DISABLE_SLOW_TESTS
189*4e366538SXin Li TEST_SCALETO(RGBScale, 1, 1)
190*4e366538SXin Li TEST_SCALETO(RGBScale, 256, 144) /* 128x72 * 3 */
191*4e366538SXin Li TEST_SCALETO(RGBScale, 320, 240)
192*4e366538SXin Li TEST_SCALETO(RGBScale, 569, 480)
193*4e366538SXin Li TEST_SCALETO(RGBScale, 1280, 720)
194*4e366538SXin Li TEST_SCALETO(RGBScale, 1920, 1080)
195*4e366538SXin Li #endif // DISABLE_SLOW_TESTS
196*4e366538SXin Li #undef TEST_SCALETO1
197*4e366538SXin Li #undef TEST_SCALETO
198*4e366538SXin Li
199*4e366538SXin Li #define TEST_SCALESWAPXY1(name, filter, max_diff) \
200*4e366538SXin Li TEST_F(LibYUVScaleTest, name##SwapXY_##filter) { \
201*4e366538SXin Li int diff = RGBTestFilter(benchmark_width_, benchmark_height_, \
202*4e366538SXin Li benchmark_height_, benchmark_width_, \
203*4e366538SXin Li kFilter##filter, benchmark_iterations_, \
204*4e366538SXin Li disable_cpu_flags_, benchmark_cpu_info_); \
205*4e366538SXin Li EXPECT_LE(diff, max_diff); \
206*4e366538SXin Li }
207*4e366538SXin Li
208*4e366538SXin Li #if defined(ENABLE_FULL_TESTS)
209*4e366538SXin Li // Test scale with swapped width and height with all 3 filters.
210*4e366538SXin Li TEST_SCALESWAPXY1(RGBScale, None, 0)
211*4e366538SXin Li TEST_SCALESWAPXY1(RGBScale, Linear, 0)
212*4e366538SXin Li TEST_SCALESWAPXY1(RGBScale, Bilinear, 0)
213*4e366538SXin Li #else
214*4e366538SXin Li TEST_SCALESWAPXY1(RGBScale, Bilinear, 0)
215*4e366538SXin Li #endif
216*4e366538SXin Li #undef TEST_SCALESWAPXY1
217*4e366538SXin Li
TEST_F(LibYUVScaleTest,RGBTest3x)218*4e366538SXin Li TEST_F(LibYUVScaleTest, RGBTest3x) {
219*4e366538SXin Li const int kSrcStride = 480 * 3;
220*4e366538SXin Li const int kDstStride = 160 * 3;
221*4e366538SXin Li const int kSize = kSrcStride * 3;
222*4e366538SXin Li align_buffer_page_end(orig_pixels, kSize);
223*4e366538SXin Li for (int i = 0; i < 480 * 3; ++i) {
224*4e366538SXin Li orig_pixels[i * 3 + 0] = i;
225*4e366538SXin Li orig_pixels[i * 3 + 1] = 255 - i;
226*4e366538SXin Li }
227*4e366538SXin Li align_buffer_page_end(dest_pixels, kDstStride);
228*4e366538SXin Li
229*4e366538SXin Li int iterations160 = (benchmark_width_ * benchmark_height_ + (160 - 1)) / 160 *
230*4e366538SXin Li benchmark_iterations_;
231*4e366538SXin Li for (int i = 0; i < iterations160; ++i) {
232*4e366538SXin Li RGBScale(orig_pixels, kSrcStride, 480, 3, dest_pixels, kDstStride, 160, 1,
233*4e366538SXin Li kFilterBilinear);
234*4e366538SXin Li }
235*4e366538SXin Li
236*4e366538SXin Li EXPECT_EQ(225, dest_pixels[0]);
237*4e366538SXin Li EXPECT_EQ(255 - 225, dest_pixels[1]);
238*4e366538SXin Li
239*4e366538SXin Li RGBScale(orig_pixels, kSrcStride, 480, 3, dest_pixels, kDstStride, 160, 1,
240*4e366538SXin Li kFilterNone);
241*4e366538SXin Li
242*4e366538SXin Li EXPECT_EQ(225, dest_pixels[0]);
243*4e366538SXin Li EXPECT_EQ(255 - 225, dest_pixels[1]);
244*4e366538SXin Li
245*4e366538SXin Li free_aligned_buffer_page_end(dest_pixels);
246*4e366538SXin Li free_aligned_buffer_page_end(orig_pixels);
247*4e366538SXin Li }
248*4e366538SXin Li
TEST_F(LibYUVScaleTest,RGBTest4x)249*4e366538SXin Li TEST_F(LibYUVScaleTest, RGBTest4x) {
250*4e366538SXin Li const int kSrcStride = 640 * 3;
251*4e366538SXin Li const int kDstStride = 160 * 3;
252*4e366538SXin Li const int kSize = kSrcStride * 4;
253*4e366538SXin Li align_buffer_page_end(orig_pixels, kSize);
254*4e366538SXin Li for (int i = 0; i < 640 * 4; ++i) {
255*4e366538SXin Li orig_pixels[i * 3 + 0] = i;
256*4e366538SXin Li orig_pixels[i * 3 + 1] = 255 - i;
257*4e366538SXin Li }
258*4e366538SXin Li align_buffer_page_end(dest_pixels, kDstStride);
259*4e366538SXin Li
260*4e366538SXin Li int iterations160 = (benchmark_width_ * benchmark_height_ + (160 - 1)) / 160 *
261*4e366538SXin Li benchmark_iterations_;
262*4e366538SXin Li for (int i = 0; i < iterations160; ++i) {
263*4e366538SXin Li RGBScale(orig_pixels, kSrcStride, 640, 4, dest_pixels, kDstStride, 160, 1,
264*4e366538SXin Li kFilterBilinear);
265*4e366538SXin Li }
266*4e366538SXin Li
267*4e366538SXin Li EXPECT_EQ(66, dest_pixels[0]);
268*4e366538SXin Li EXPECT_EQ(190, dest_pixels[1]);
269*4e366538SXin Li
270*4e366538SXin Li RGBScale(orig_pixels, kSrcStride, 64, 4, dest_pixels, kDstStride, 16, 1,
271*4e366538SXin Li kFilterNone);
272*4e366538SXin Li
273*4e366538SXin Li EXPECT_EQ(2, dest_pixels[0]); // expect the 3rd pixel of the 3rd row
274*4e366538SXin Li EXPECT_EQ(255 - 2, dest_pixels[1]);
275*4e366538SXin Li
276*4e366538SXin Li free_aligned_buffer_page_end(dest_pixels);
277*4e366538SXin Li free_aligned_buffer_page_end(orig_pixels);
278*4e366538SXin Li }
279*4e366538SXin Li
280*4e366538SXin Li } // namespace libyuv
281