/* * libjingle * Copyright 2008 Google Inc. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO * EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "talk/base/gunit.h" #include "talk/media/base/videocommon.h" namespace cricket { TEST(VideoCommonTest, TestCanonicalFourCC) { // Canonical fourccs are not changed. EXPECT_EQ(FOURCC_I420, CanonicalFourCC(FOURCC_I420)); // The special FOURCC_ANY value is not changed. EXPECT_EQ(FOURCC_ANY, CanonicalFourCC(FOURCC_ANY)); // Aliases are translated to the canonical equivalent. EXPECT_EQ(FOURCC_I420, CanonicalFourCC(FOURCC_IYUV)); EXPECT_EQ(FOURCC_I422, CanonicalFourCC(FOURCC_YU16)); EXPECT_EQ(FOURCC_I444, CanonicalFourCC(FOURCC_YU24)); EXPECT_EQ(FOURCC_YUY2, CanonicalFourCC(FOURCC_YUYV)); EXPECT_EQ(FOURCC_YUY2, CanonicalFourCC(FOURCC_YUVS)); EXPECT_EQ(FOURCC_UYVY, CanonicalFourCC(FOURCC_HDYC)); EXPECT_EQ(FOURCC_UYVY, CanonicalFourCC(FOURCC_2VUY)); EXPECT_EQ(FOURCC_MJPG, CanonicalFourCC(FOURCC_JPEG)); EXPECT_EQ(FOURCC_MJPG, CanonicalFourCC(FOURCC_DMB1)); EXPECT_EQ(FOURCC_BGGR, CanonicalFourCC(FOURCC_BA81)); EXPECT_EQ(FOURCC_RAW, CanonicalFourCC(FOURCC_RGB3)); EXPECT_EQ(FOURCC_24BG, CanonicalFourCC(FOURCC_BGR3)); EXPECT_EQ(FOURCC_BGRA, CanonicalFourCC(FOURCC_CM32)); EXPECT_EQ(FOURCC_RAW, CanonicalFourCC(FOURCC_CM24)); } // Test conversion between interval and fps TEST(VideoCommonTest, TestVideoFormatFps) { EXPECT_EQ(VideoFormat::kMinimumInterval, VideoFormat::FpsToInterval(0)); EXPECT_EQ(talk_base::kNumNanosecsPerSec / 20, VideoFormat::FpsToInterval(20)); EXPECT_EQ(20, VideoFormat::IntervalToFps(talk_base::kNumNanosecsPerSec / 20)); } // Test IsSize0x0 TEST(VideoCommonTest, TestVideoFormatIsSize0x0) { VideoFormat format; EXPECT_TRUE(format.IsSize0x0()); format.width = 320; EXPECT_FALSE(format.IsSize0x0()); } // Test ToString: print fourcc when it is printable. TEST(VideoCommonTest, TestVideoFormatToString) { VideoFormat format; EXPECT_EQ("0x0x10000", format.ToString()); format.fourcc = FOURCC_I420; format.width = 640; format.height = 480; format.interval = VideoFormat::FpsToInterval(20); EXPECT_EQ("I420 640x480x20", format.ToString()); format.fourcc = FOURCC_ANY; format.width = 640; format.height = 480; format.interval = VideoFormat::FpsToInterval(20); EXPECT_EQ("640x480x20", format.ToString()); } // Test comparison. TEST(VideoCommonTest, TestVideoFormatCompare) { VideoFormat format(640, 480, VideoFormat::FpsToInterval(20), FOURCC_I420); VideoFormat format2; EXPECT_NE(format, format2); // Same pixelrate, different fourcc. format2 = format; format2.fourcc = FOURCC_YUY2; EXPECT_NE(format, format2); EXPECT_FALSE(format.IsPixelRateLess(format2) || format2.IsPixelRateLess(format2)); format2 = format; format2.interval /= 2; EXPECT_TRUE(format.IsPixelRateLess(format2)); format2 = format; format2.width *= 2; EXPECT_TRUE(format.IsPixelRateLess(format2)); } TEST(VideoCommonTest, TestComputeScaleWithLowFps) { int scaled_width, scaled_height; // Request small enough. Expect no change. ComputeScale(2560, 1600, 5, &scaled_width, &scaled_height); EXPECT_EQ(2560, scaled_width); EXPECT_EQ(1600, scaled_height); // Request too many pixels. Expect 1/2 size. ComputeScale(4096, 2560, 5, &scaled_width, &scaled_height); EXPECT_EQ(2048, scaled_width); EXPECT_EQ(1280, scaled_height); // Request too many pixels and too wide and tall. Expect 1/4 size. ComputeScale(16000, 10000, 5, &scaled_width, &scaled_height); EXPECT_EQ(2000, scaled_width); EXPECT_EQ(1250, scaled_height); // Request too wide. (two 30 inch monitors). Expect 1/2 size. ComputeScale(5120, 1600, 5, &scaled_width, &scaled_height); EXPECT_EQ(2560, scaled_width); EXPECT_EQ(800, scaled_height); // Request too wide but not too many pixels. Expect 1/2 size. ComputeScale(8192, 1024, 5, &scaled_width, &scaled_height); EXPECT_EQ(4096, scaled_width); EXPECT_EQ(512, scaled_height); // Request too tall. Expect 1/4 size. ComputeScale(1024, 8192, 5, &scaled_width, &scaled_height); EXPECT_EQ(256, scaled_width); EXPECT_EQ(2048, scaled_height); } // Same as TestComputeScale but with 15 fps instead of 5 fps. TEST(VideoCommonTest, TestComputeScaleWithHighFps) { int scaled_width, scaled_height; // Request small enough but high fps. Expect 1/2 size. ComputeScale(2560, 1600, 15, &scaled_width, &scaled_height); EXPECT_EQ(1280, scaled_width); EXPECT_EQ(800, scaled_height); // Request too many pixels. Expect 1/2 size. ComputeScale(4096, 2560, 15, &scaled_width, &scaled_height); EXPECT_EQ(2048, scaled_width); EXPECT_EQ(1280, scaled_height); // Request too many pixels and too wide and tall. Expect 1/16 size. ComputeScale(64000, 40000, 15, &scaled_width, &scaled_height); EXPECT_EQ(4000, scaled_width); EXPECT_EQ(2500, scaled_height); // Request too wide. (two 30 inch monitors). Expect 1/2 size. ComputeScale(5120, 1600, 15, &scaled_width, &scaled_height); EXPECT_EQ(2560, scaled_width); EXPECT_EQ(800, scaled_height); // Request too wide but not too many pixels. Expect 1/2 size. ComputeScale(8192, 1024, 15, &scaled_width, &scaled_height); EXPECT_EQ(4096, scaled_width); EXPECT_EQ(512, scaled_height); // Request too tall. Expect 1/4 size. ComputeScale(1024, 8192, 15, &scaled_width, &scaled_height); EXPECT_EQ(256, scaled_width); EXPECT_EQ(2048, scaled_height); } TEST(VideoCommonTest, TestComputeCrop) { int cropped_width, cropped_height; // Request 16:9 to 16:9. Expect no cropping. ComputeCrop(1280, 720, // Crop size 16:9 640, 360, // Frame is 4:3 1, 1, // Normal 1:1 pixels 0, &cropped_width, &cropped_height); EXPECT_EQ(640, cropped_width); EXPECT_EQ(360, cropped_height); // Request 4:3 to 16:9. Expect vertical. ComputeCrop(640, 360, // Crop size 16:9 640, 480, // Frame is 4:3 1, 1, // Normal 1:1 pixels 0, &cropped_width, &cropped_height); EXPECT_EQ(640, cropped_width); EXPECT_EQ(360, cropped_height); // Request 16:9 to 4:3. Expect horizontal crop. ComputeCrop(640, 480, // Crop size 4:3 640, 360, // Frame is 16:9 1, 1, // Normal 1:1 pixels 0, &cropped_width, &cropped_height); EXPECT_EQ(480, cropped_width); EXPECT_EQ(360, cropped_height); // Request 16:9 but VGA has 3:8 pixel aspect ratio. Expect no crop. // This occurs on HP4110 on OSX 10.5/10.6/10.7 ComputeCrop(640, 360, // Crop size 16:9 640, 480, // Frame is 4:3 3, 8, // Pixel aspect ratio is tall 0, &cropped_width, &cropped_height); EXPECT_EQ(640, cropped_width); EXPECT_EQ(480, cropped_height); // Request 16:9 but QVGA has 15:11 pixel aspect ratio. Expect horizontal crop. // This occurs on Logitech B910 on OSX 10.5/10.6/10.7 in Hangouts. ComputeCrop(640, 360, // Crop size 16:9 320, 240, // Frame is 4:3 15, 11, // Pixel aspect ratio is wide 0, &cropped_width, &cropped_height); EXPECT_EQ(312, cropped_width); EXPECT_EQ(240, cropped_height); // Request 16:10 but QVGA has 15:11 pixel aspect ratio. // Expect horizontal crop. // This occurs on Logitech B910 on OSX 10.5/10.6/10.7 in gmail. ComputeCrop(640, 400, // Crop size 16:10 320, 240, // Frame is 4:3 15, 11, // Pixel aspect ratio is wide 0, &cropped_width, &cropped_height); EXPECT_EQ(280, cropped_width); EXPECT_EQ(240, cropped_height); // Request 16:9 but VGA has 6:5 pixel aspect ratio. Expect vertical crop. // This occurs on Logitech QuickCam Pro C9000 on OSX ComputeCrop(640, 360, // Crop size 16:9 640, 480, // Frame is 4:3 6, 5, // Pixel aspect ratio is wide 0, &cropped_width, &cropped_height); EXPECT_EQ(640, cropped_width); EXPECT_EQ(432, cropped_height); // Request 16:10 but HD is 16:9. Expect horizontal crop. // This occurs in settings and local preview with HD experiment. ComputeCrop(1280, 800, // Crop size 16:10 1280, 720, // Frame is 4:3 1, 1, // Pixel aspect ratio is wide 0, &cropped_width, &cropped_height); EXPECT_EQ(1152, cropped_width); EXPECT_EQ(720, cropped_height); // Request 16:9 but HD has 3:4 pixel aspect ratio. Expect vertical crop. // This occurs on Logitech B910 on OSX 10.5/10.6.7 but not OSX 10.6.8 or 10.7 ComputeCrop(1280, 720, // Crop size 16:9 1280, 720, // Frame is 4:3 3, 4, // Pixel aspect ratio is wide 0, &cropped_width, &cropped_height); EXPECT_EQ(1280, cropped_width); EXPECT_EQ(540, cropped_height); // Request 16:9 to 3:4 (portrait). Expect no cropping. ComputeCrop(640, 360, // Crop size 16:9 640, 480, // Frame is 3:4 portrait 1, 1, // Normal 1:1 pixels 90, &cropped_width, &cropped_height); EXPECT_EQ(640, cropped_width); EXPECT_EQ(480, cropped_height); // Cropped size 0x0. Expect no cropping. // This is used when adding multiple capturers ComputeCrop(0, 0, // Crop size 0x0 1024, 768, // Frame is 3:4 portrait 1, 1, // Normal 1:1 pixels 0, &cropped_width, &cropped_height); EXPECT_EQ(1024, cropped_width); EXPECT_EQ(768, cropped_height); } TEST(VideoCommonTest, TestComputeScaleToSquarePixels) { int scaled_width, scaled_height; // Pixel aspect ratio is 4:3. Logical aspect ratio is 16:9. Expect scale // to square pixels with physical aspect ratio of 16:9. ComputeScaleToSquarePixels(640, 480, 4, 3, // 4 x 3 pixel aspect ratio &scaled_width, &scaled_height); EXPECT_EQ(640, scaled_width); EXPECT_EQ(360, scaled_height); // Pixel aspect ratio is 3:8. Physical aspect ratio is 4:3. Expect scale // to square pixels with logical aspect ratio of 1:2. // Note that 640x1280 will be scaled down by video adapter to view request // of 640*360 and will end up using 320x640. ComputeScaleToSquarePixels(640, 480, 3, 8, // 4 x 3 pixel aspect ratio &scaled_width, &scaled_height); EXPECT_EQ(640, scaled_width); EXPECT_EQ(1280, scaled_height); } } // namespace cricket