public void SerializationRoundtrip_DefaultInstance()
{
var message = new FailedImageMessage();
var data = message.Serialize();
var deserialized = FailedImageMessage.Deserialize(data);
AssertAreEqual(deserialized, message);
}
public void SerializationRoundtrip_AllFieldsAreSerializedAndDeserialized(string pathName, string imageName, byte[] expectedImage, byte[] actualImage, byte[] diffImage)
{
var message = new FailedImageMessage
{
PathName = pathName,
ImageName = imageName,
ExpectedImage = expectedImage,
ActualImage = actualImage,
DiffImage = diffImage,
};
var data = message.Serialize();
var deserialized = FailedImageMessage.Deserialize(data);
AssertAreEqual(deserialized, message);
}
/// <summary>
/// Compares an image to a 'reference' image to see if it looks correct.
/// </summary>
/// <param name="expected">What the image is supposed to look like.</param>
/// <param name="actual">What the image actually looks like.</param>
/// <param name="settings">Optional settings that control how the comparison is performed. Can be null, in which case the images are required to be exactly identical.</param>
public static void AreEqual(Texture2D expected, Texture2D actual, ImageComparisonSettings settings = null)
{
if (actual == null)
{
throw new ArgumentNullException(nameof(actual));
}
var dirName = Path.Combine("Assets/ActualImages", string.Format("{0}/{1}/{2}", UseGraphicsTestCasesAttribute.ColorSpace, UseGraphicsTestCasesAttribute.Platform, UseGraphicsTestCasesAttribute.GraphicsDevice));
var failedImageMessage = new FailedImageMessage
{
PathName = dirName,
ImageName = TestContext.CurrentContext.Test.Name,
};
try
{
Assert.That(expected, Is.Not.Null, "No reference image was provided.");
Assert.That(actual.width, Is.EqualTo(expected.width),
"The expected image had width {0}px, but the actual image had width {1}px.", expected.width,
actual.width);
Assert.That(actual.height, Is.EqualTo(expected.height),
"The expected image had height {0}px, but the actual image had height {1}px.", expected.height,
actual.height);
Assert.That(actual.format, Is.EqualTo(expected.format),
"The expected image had format {0} but the actual image had format {1}.", expected.format,
actual.format);
using (var expectedPixels = new NativeArray <Color32>(expected.GetPixels32(0), Allocator.TempJob))
using (var actualPixels = new NativeArray <Color32>(actual.GetPixels32(0), Allocator.TempJob))
using (var diffPixels = new NativeArray <Color32>(expectedPixels.Length, Allocator.TempJob))
using (var sumOverThreshold = new NativeArray <float>(Mathf.CeilToInt(expectedPixels.Length / (float)k_BatchSize), Allocator.TempJob))
{
if (settings == null)
{
settings = new ImageComparisonSettings();
}
new ComputeDiffJob
{
expected = expectedPixels,
actual = actualPixels,
diff = diffPixels,
sumOverThreshold = sumOverThreshold,
pixelThreshold = settings.PerPixelCorrectnessThreshold
}.Schedule(expectedPixels.Length, k_BatchSize).Complete();
float averageDeltaE = sumOverThreshold.Sum() / (expected.width * expected.height);
try
{
Assert.That(averageDeltaE, Is.LessThanOrEqualTo(settings.AverageCorrectnessThreshold));
}
catch (AssertionException)
{
var diffImage = new Texture2D(expected.width, expected.height, TextureFormat.RGB24, false);
var diffPixelsArray = new Color32[expected.width * expected.height];
diffPixels.CopyTo(diffPixelsArray);
diffImage.SetPixels32(diffPixelsArray, 0);
diffImage.Apply(false);
TestContext.CurrentContext.Test.Properties.Set("DiffImage", Convert.ToBase64String(diffImage.EncodeToPNG()));
failedImageMessage.DiffImage = diffImage.EncodeToPNG();
failedImageMessage.ExpectedImage = expected.EncodeToPNG();
throw;
}
}
}
catch (AssertionException)
{
failedImageMessage.ActualImage = actual.EncodeToPNG();
#if UNITY_EDITOR
ImageHandler.instance.SaveImage(failedImageMessage);
#else
PlayerConnection.instance.Send(FailedImageMessage.MessageId, failedImageMessage.Serialize());
#endif
TestContext.CurrentContext.Test.Properties.Set("Image", Convert.ToBase64String(actual.EncodeToPNG()));
throw;
}
}