public void Values_Can_Be_Negative()
{
// setup
float addValue = -10;
var addFilter = FilterUtility.CreateInstance <AddFilter>();
addFilter.value = addValue;
m_Stack.Add(addFilter);
var prevRT = RenderTexture.active;
var dest = RTUtils.GetTempHandle(RTUtils.GetDescriptor(1, 1, 0, GraphicsFormat.R16G16B16A16_SFloat, 0, false));
Graphics.Blit(Texture2D.blackTexture, dest); // init to black
// eval
m_Stack.Eval(m_Context, null, dest); // source isn't actually used yet
var tex = new Texture2D(1, 1, TextureFormat.RGBAFloat, false, true);
RenderTexture.active = dest;
tex.ReadPixels(new Rect(0, 0, 1, 1), 0, 0, false);
var check = tex.GetPixel(0, 0).r - 1; // minus 1 because we start off with a white texture within FilterStack.Eval
// clean up
RenderTexture.active = prevRT;
UObject.DestroyImmediate(tex);
RTUtils.Release(dest);
Assert.That(check, Is.EqualTo(addValue));
}
public void Add_Filter()
{
// setup
float addValue = 9000f;
var addFilter = FilterUtility.CreateInstance <AddFilter>();
addFilter.value = addValue;
var prevRT = RenderTexture.active;
var src = RTUtils.GetTempHandle(RTUtils.GetDescriptor(1, 1, 0, GraphicsFormat.R16G16B16A16_SFloat, 0, false));
var dest = RTUtils.GetTempHandle(RTUtils.GetDescriptor(1, 1, 0, GraphicsFormat.R16G16B16A16_SFloat, 0, false));
Graphics.Blit(Texture2D.blackTexture, src);
Graphics.Blit(Texture2D.blackTexture, dest);
// eval
addFilter.Eval(m_Context, src, dest);
var tex = new Texture2D(1, 1, TextureFormat.RGBAFloat, false, true);
RenderTexture.active = dest;
tex.ReadPixels(new Rect(0, 0, 1, 1), 0, 0, false);
var check = tex.GetPixel(0, 0).r;
// clean up
RenderTexture.active = prevRT;
UObject.DestroyImmediate(tex);
RTUtils.Release(src);
RTUtils.Release(dest);
UObject.DestroyImmediate(addFilter);
Assert.That(check, Is.EqualTo(addValue));
}
/// <summary>
/// Evaluate the FilterStack. Composited result will be copied into fc.destinationRenderTexture
/// <param name="fc">The FilterContext that should be used for composition</param>
/// <exception>Throws an exception if source or destination RenderTexture is null</exception>
/// </summary>
public void Eval(FilterContext fc, RenderTexture source, RenderTexture dest)
{
if (dest == null)
{
throw new InvalidOperationException("FilterContext::Eval: Source and destination RenderTextures are not properly set up");
}
using (new ActiveRenderTextureScope(RenderTexture.active))
{
int count = filters.Count;
int srcIndex = 0;
int destIndex = 1;
var descriptor = RTUtils.GetDescriptor(dest.width, dest.height, 0, FilterUtility.defaultFormat);
swapBuffer[0] = RTUtils.GetTempHandle(descriptor).WithName(k_BufferName0);
swapBuffer[1] = RTUtils.GetTempHandle(descriptor).WithName(k_BufferName1);
// ensure the textures are created for compute usage
swapBuffer[0].RT.Create();
swapBuffer[1].RT.Create();
//don't remove this! needed for compute shaders to work correctly.
Graphics.Blit(Texture2D.whiteTexture, swapBuffer[0]); // TODO: change this to black or source. should build up the mask instead of always multiply
Graphics.Blit(Texture2D.blackTexture, swapBuffer[1]);
for (int i = 0; i < count; ++i)
{
var filter = filters[i];
if (!filter.enabled)
{
continue;
}
filter.Eval(fc, swapBuffer[srcIndex], swapBuffer[destIndex]);
// swap indices
destIndex += srcIndex;
srcIndex = destIndex - srcIndex;
destIndex = destIndex - srcIndex;
}
Graphics.Blit(swapBuffer[srcIndex], dest);
RTUtils.Release(swapBuffer[0]);
RTUtils.Release(swapBuffer[1]);
swapBuffer[0] = null;
swapBuffer[1] = null;
}
}
public void Noise_Filter_Can_Be_Rotated(int dim)
{
var noiseFilter = FilterUtility.CreateInstance <NoiseFilter>();
noiseFilter.SetLocalSpace(true);
m_Stack.Add(noiseFilter);
var dest = RTUtils.GetTempHandle(RTUtils.GetDescriptor(dim, dim, 0, GraphicsFormat.R16G16B16A16_SFloat, 0, false));
Graphics.Blit(Texture2D.blackTexture, dest); // init to black
m_Context.brushRotation = 0;
m_Context.brushPos = Vector3.zero;
m_Context.brushSize = dim;
m_Stack.Eval(m_Context, null, dest); // source isn't actually used yet
var unrotatedColors = GetColorsFromRT(dest);
m_Context.brushRotation = 180;
m_Stack.Eval(m_Context, null, dest); // source isn't actually used yet
var rotatedColors = GetColorsFromRT(dest);
RTUtils.Release(dest);
int failureCount = 0;
var difference = new Color[rotatedColors.Length];
for (int x = 0; x < dim; x++)
{
for (int y = 0; y < dim; y++)
{
int rotatedIndex = (dim - 1 - x) + (dim - 1 - y) * dim;
var index = x + y * dim;
difference[index] = new Color(Mathf.Abs(rotatedColors[rotatedIndex].r - unrotatedColors[index].r), 0, 0, 1);
// comparing with a small value to eliminate issues coming from floating point offset
if (Mathf.Abs(rotatedColors[rotatedIndex].r - unrotatedColors[index].r) > 0.001f)
{
failureCount++;
}
}
}
Assert.That(failureCount, Is.Zero);
}
