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@ -33,9 +33,7 @@ package com.jme3.environment.util; |
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import com.jme3.asset.AssetManager; |
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import com.jme3.material.Material; |
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import com.jme3.math.ColorRGBA; |
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import com.jme3.math.Vector3f; |
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import com.jme3.math.Vector4f; |
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import com.jme3.math.*; |
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import com.jme3.scene.Geometry; |
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import com.jme3.scene.Node; |
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import com.jme3.scene.shape.Quad; |
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@ -49,8 +47,7 @@ import com.jme3.util.BufferUtils; |
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import java.nio.ByteBuffer; |
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import java.util.ArrayList; |
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import static com.jme3.math.FastMath.*; |
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import com.jme3.math.Quaternion; |
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import com.jme3.math.Vector2f; |
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import com.jme3.util.TempVars; |
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/** |
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@ -254,7 +251,7 @@ public class EnvMapUtils { |
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float v; |
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if (fixSeamsMethod == FixSeamsMethod.Stretch) { |
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/* Code from Nvtt : http://code.google.com/p/nvidia-texture-tools/source/browse/trunk/src/nvtt/CubeSurface.cpp
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/* Code from Nvtt : https://github.com/castano/nvidia-texture-tools/blob/master/src/nvtt/CubeSurface.cpp#L77
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* transform from [0..res - 1] to [-1 .. 1], match up edges exactly. */ |
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u = (2.0f * (float) x / ((float) mapSize - 1.0f)) - 1.0f; |
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v = (2.0f * (float) y / ((float) mapSize - 1.0f)) - 1.0f; |
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@ -274,7 +271,7 @@ public class EnvMapUtils { |
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} |
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//compute vector depending on the face
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// Code from Nvtt : http://code.google.com/p/nvidia-texture-tools/source/browse/trunk/src/nvtt/CubeSurface.cpp
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// Code from Nvtt : https://github.com/castano/nvidia-texture-tools/blob/master/src/nvtt/CubeSurface.cpp#L101
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switch (face) { |
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case 0: |
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store.set(1f, -v, -u); |
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@ -387,62 +384,21 @@ public class EnvMapUtils { |
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return face; |
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} |
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/* |
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public static void main(String... argv) { |
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// for (int givenFace = 0; givenFace < 6; givenFace++) {
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//
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// //int givenFace = 1;
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// for (int x = 0; x < 128; x++) {
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// for (int y = 0; y < 128; y++) {
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// Vector3f v = EnvMapUtils.getVectorFromCubemapFaceTexCoord(x, y, 128, givenFace, null, FixSeamsMethod.None);
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// Vector2f uvs = new Vector2f();
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// int face = EnvMapUtils.getCubemapFaceTexCoordFromVector(v, 128, uvs, FixSeamsMethod.None);
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//
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// if ((int) uvs.x != x || (int) uvs.y != y) {
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// System.err.println("error " + uvs + " should be " + x + "," + y + " vect was " + v);
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// }
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// if (givenFace != face) {
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// System.err.println("error face: " + face + " should be " + givenFace);
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// }
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// }
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// }
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// }
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// System.err.println("done ");
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int total = 0; |
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for (int i = 0; i < 6; i++) { |
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int size = (int) pow(2, 7 - i); |
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int samples = EnvMapUtils.getSampleFromMip(i, 6); |
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int iterations = (samples * size * size); |
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total += iterations; |
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float roughness = EnvMapUtils.getRoughnessFromMip(i, 6); |
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System.err.println("roughness " + i + " : " + roughness + " , map : " + size + " , samples : " + samples + " , iterations : " + iterations); |
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System.err.println("reverse " + EnvMapUtils.getMipFromRoughness(roughness, 6)); |
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} |
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System.err.println("total " + total); |
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System.err.println(128 * 128 * 1024); |
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System.err.println("test " + EnvMapUtils.getMipFromRoughness(0.9999f, 6)); |
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System.err.println("nb mip = " + (Math.log(128) / Math.log(2) - 1)); |
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}*/ |
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public static int getSampleFromMip(int mipLevel, int miptot) { |
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return mipLevel==0?1:Math.min(1 << (miptot - 1 + (mipLevel) * 2 ), 8192); |
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public static int getSampleFromMip(int mipLevel, int miptot) { |
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return mipLevel == 0 ? 1 : Math.min(1 << (miptot - 1 + (mipLevel) * 2), 8192); |
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} |
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public static float getRoughnessFromMip(int miplevel, int miptot) { |
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float mipScale = 1.0f; |
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float mipOffset = -0.3f; |
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return pow(2, (miplevel - (miptot - 1) + mipOffset) / mipScale); |
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//see lagarde's paper https://seblagarde.files.wordpress.com/2015/07/course_notes_moving_frostbite_to_pbr_v32.pdf
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//linear roughness
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public static float getRoughnessFromMip(int miplevel, int miptot) { |
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float step = 1f / ((float) miptot - 1); |
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step *= miplevel; |
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return step * step; |
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} |
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public static float getMipFromRoughness(float roughness, int miptot) { |
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float mipScale = 1.0f; |
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float Lod = (float) (Math.log(roughness) / Math.log(2)) * mipScale + miptot - 1.0f; |
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return (float) Math.max(0.0, Lod); |
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return FastMath.sqrt(roughness) * (miptot - 1); |
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} |
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/** |
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@ -559,138 +515,6 @@ public class EnvMapUtils { |
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shDir[7] = -(sqrt15Pi * xV * zV) / 2f; |
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shDir[8] = sqrt15Pi * (x2 - y2) / 4f; |
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// shDir[0] = (1f/(2.f*sqrtPi));
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//
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// shDir[1] = -(sqrt(3f/pi)*yV)/2.f;
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// shDir[2] = (sqrt(3/pi)*zV)/2.f;
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// shDir[3] = -(sqrt(3/pi)*xV)/2.f;
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//
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// shDir[4] = (sqrt(15f/pi)*xV*yV)/2.f;
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// shDir[5] = -(sqrt(15f/pi)*yV*zV)/2.f;
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// shDir[6] = (sqrt(5f/pi)*(-1 + 3f*z2))/4.f;
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// shDir[7] = -(sqrt(15f/pi)*xV*zV)/2.f;
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// shDir[8] = sqrt(15f/pi)*(x2 - y2)/4.f;
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} |
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/** |
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* {@link EnvMapUtils#generateIrradianceMap(com.jme3.math.Vector3f[], com.jme3.texture.TextureCubeMap, int, com.jme3.utils.EnvMapUtils.FixSeamsMethod) |
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* } |
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* |
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* @param shCoeffs the spherical harmonics coefficients to use |
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* @param targetMapSize the size of the target map |
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* @return the irradiance map. |
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*/ |
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public static TextureCubeMap generateIrradianceMap(Vector3f[] shCoeffs, int targetMapSize) { |
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return generateIrradianceMap(shCoeffs, targetMapSize, FixSeamsMethod.Wrap, null); |
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} |
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/** |
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* Generates the Irradiance map (used for image based difuse lighting) from |
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* Spherical Harmonics coefficients previously computed with |
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* {@link EnvMapUtils#getSphericalHarmonicsCoefficents(com.jme3.texture.TextureCubeMap)} |
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* Note that the output cube map is in RGBA8 format. |
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* |
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* @param shCoeffs the SH coeffs |
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* @param targetMapSize the size of the irradiance map to generate |
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* @param fixSeamsMethod the method to fix seams |
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* @param store |
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* @return The irradiance cube map for the given coefficients |
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*/ |
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public static TextureCubeMap generateIrradianceMap(Vector3f[] shCoeffs, int targetMapSize, FixSeamsMethod fixSeamsMethod, TextureCubeMap store) { |
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TextureCubeMap irrCubeMap = store; |
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if (irrCubeMap == null) { |
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irrCubeMap = new TextureCubeMap(targetMapSize, targetMapSize, Image.Format.RGB16F); |
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irrCubeMap.setMagFilter(Texture.MagFilter.Bilinear); |
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irrCubeMap.setMinFilter(Texture.MinFilter.BilinearNoMipMaps); |
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irrCubeMap.getImage().setColorSpace(ColorSpace.Linear); |
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} |
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for (int i = 0; i < 6; i++) { |
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ByteBuffer buf = BufferUtils.createByteBuffer(targetMapSize * targetMapSize * irrCubeMap.getImage().getFormat().getBitsPerPixel()/8); |
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irrCubeMap.getImage().setData(i, buf); |
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} |
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Vector3f texelVect = new Vector3f(); |
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ColorRGBA color = new ColorRGBA(ColorRGBA.Black); |
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float[] shDir = new float[9]; |
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CubeMapWrapper envMapWriter = new CubeMapWrapper(irrCubeMap); |
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for (int face = 0; face < 6; face++) { |
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for (int y = 0; y < targetMapSize; y++) { |
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for (int x = 0; x < targetMapSize; x++) { |
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getVectorFromCubemapFaceTexCoord(x, y, targetMapSize, face, texelVect, fixSeamsMethod); |
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evalShBasis(texelVect, shDir); |
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color.set(0, 0, 0, 0); |
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for (int i = 0; i < NUM_SH_COEFFICIENT; i++) { |
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color.set(color.r + shCoeffs[i].x * shDir[i] * shBandFactor[i], |
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color.g + shCoeffs[i].y * shDir[i] * shBandFactor[i], |
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color.b + shCoeffs[i].z * shDir[i] * shBandFactor[i], |
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1.0f); |
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} |
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//clamping the color because very low value close to zero produce artifacts
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color.r = Math.max(0.0001f, color.r); |
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color.g = Math.max(0.0001f, color.g); |
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color.b = Math.max(0.0001f, color.b); |
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envMapWriter.setPixel(x, y, face, color); |
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} |
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} |
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} |
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return irrCubeMap; |
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} |
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/** |
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* Generates the prefiltered env map (used for image based specular |
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* lighting) With the GGX/Shlick brdf |
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* {@link EnvMapUtils#getSphericalHarmonicsCoefficents(com.jme3.texture.TextureCubeMap)} |
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* Note that the output cube map is in RGBA8 format. |
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* |
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* @param sourceEnvMap |
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* @param targetMapSize the size of the irradiance map to generate |
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* @param store |
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* @param fixSeamsMethod the method to fix seams |
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* @return The irradiance cube map for the given coefficients |
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*/ |
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public static TextureCubeMap generatePrefilteredEnvMap(TextureCubeMap sourceEnvMap, int targetMapSize, FixSeamsMethod fixSeamsMethod, TextureCubeMap store) { |
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TextureCubeMap pem = store; |
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if (pem == null) { |
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pem = new TextureCubeMap(targetMapSize, targetMapSize, Image.Format.RGB16F); |
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pem.setMagFilter(Texture.MagFilter.Bilinear); |
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pem.setMinFilter(Texture.MinFilter.Trilinear); |
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pem.getImage().setColorSpace(ColorSpace.Linear); |
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} |
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int nbMipMap = (int) (Math.log(targetMapSize) / Math.log(2) - 1); |
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CubeMapWrapper sourceWrapper = new CubeMapWrapper(sourceEnvMap); |
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CubeMapWrapper targetWrapper = new CubeMapWrapper(pem); |
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targetWrapper.initMipMaps(nbMipMap); |
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Vector3f texelVect = new Vector3f(); |
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Vector3f color = new Vector3f(); |
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ColorRGBA outColor = new ColorRGBA(); |
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for (int mipLevel = 0; mipLevel < nbMipMap; mipLevel++) { |
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System.err.println("mip level " + mipLevel); |
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float roughness = getRoughnessFromMip(mipLevel, nbMipMap); |
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int nbSamples = getSampleFromMip(mipLevel, nbMipMap); |
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int targetMipMapSize = (int) pow(2, nbMipMap + 1 - mipLevel); |
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for (int face = 0; face < 6; face++) { |
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System.err.println("face " + face); |
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for (int y = 0; y < targetMipMapSize; y++) { |
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for (int x = 0; x < targetMipMapSize; x++) { |
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color.set(0, 0, 0); |
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getVectorFromCubemapFaceTexCoord(x, y, targetMipMapSize, face, texelVect, FixSeamsMethod.Wrap); |
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prefilterEnvMapTexel(sourceWrapper, roughness, texelVect, nbSamples, color); |
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outColor.set(color.x, color.y, color.z, 1.0f); |
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// System.err.println("coords " + x + "," + y);
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targetWrapper.setPixel(x, y, face, mipLevel, outColor); |
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} |
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} |
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} |
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} |
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return pem; |
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} |
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public static Vector4f getHammersleyPoint(int i, final int nbrSample, Vector4f store) { |
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@ -719,43 +543,6 @@ public class EnvMapUtils { |
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return store; |
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} |
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private static Vector3f prefilterEnvMapTexel(CubeMapWrapper envMapReader, float roughness, Vector3f N, int numSamples, Vector3f store) { |
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Vector3f prefilteredColor = store; |
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float totalWeight = 0.0f; |
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TempVars vars = TempVars.get(); |
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Vector4f Xi = vars.vect4f1; |
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Vector3f H = vars.vect1; |
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Vector3f tmp = vars.vect2; |
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ColorRGBA c = vars.color; |
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// a = roughness² and a2 = a²
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float a2 = roughness * roughness; |
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a2 *= a2; |
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a2 *= 10; |
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for (int i = 0; i < numSamples; i++) { |
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Xi = getHammersleyPoint(i, numSamples, Xi); |
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H = importanceSampleGGX(Xi, a2, N, H, vars); |
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H.normalizeLocal(); |
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tmp.set(H); |
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float NoH = N.dot(tmp); |
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Vector3f L = tmp.multLocal(NoH * 2).subtractLocal(N); |
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float NoL = clamp(N.dot(L), 0.0f, 1.0f); |
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if (NoL > 0) { |
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envMapReader.getPixel(L, c); |
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prefilteredColor.setX(prefilteredColor.x + c.r * NoL); |
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prefilteredColor.setY(prefilteredColor.y + c.g * NoL); |
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prefilteredColor.setZ(prefilteredColor.z + c.b * NoL); |
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totalWeight += NoL; |
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} |
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} |
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vars.release(); |
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return prefilteredColor.divideLocal(totalWeight); |
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} |
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public static Vector3f importanceSampleGGX(Vector4f xi, float a2, Vector3f normal, Vector3f store, TempVars vars) { |
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if (store == null) { |
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store = new Vector3f(); |
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@ -945,3 +732,5 @@ public class EnvMapUtils { |
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return pem; |
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} |
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} |
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