#version 300 es // Original Code // https://github.com/KhronosGroup/glTF-Sample-Viewer/blob/glTF-WebGL-PBR/shaders/pbr-vert.glsl // Commit dc84b5e374fb3d23153d2248a338ef88173f9eb6 #define MORPH defined(MORPH_POSITION) || defined(MORPH_NORMAL) || defined(MORPH_TANGENT) // These lines in the shader may be replaced with actual definitions by the model loader, // if they are needed. Note, some shader compilers have problems with spurious ";", so // the macro invocations don't have a trailing ";". The replacement strings in the model // loader will provide it instead. #define ADD_EXTRA_SKINNING_ATTRIBUTES #define ADD_EXTRA_WEIGHTS #ifdef HIGHP precision highp float; #else precision mediump float; #endif in vec3 aPosition; in vec2 aTexCoord; in vec3 aNormal; #ifdef VEC4_TANGENT in vec4 aTangent; #else in vec3 aTangent; #endif in vec4 aVertexColor; #ifdef SKINNING in vec4 aJoints0; in vec4 aWeights0; ADD_EXTRA_SKINNING_ATTRIBUTES #endif #ifdef MORPH uniform highp sampler2D sBlendShapeGeometry; #endif out mediump vec2 vUV; out lowp mat3 vTBN; out lowp vec4 vColor; out highp vec3 vPositionToCamera; uniform highp mat4 uViewMatrix; uniform mat3 uNormalMatrix; uniform mat4 uModelMatrix; uniform mat4 uProjection; #ifdef SKINNING #define MAX_BONES 256 layout(std140) uniform Bones { mat4 uBone[MAX_BONES]; }; uniform mediump vec3 uYDirection; #endif #ifdef MORPH #define MAX_BLEND_SHAPE_NUMBER 128 uniform int uNumberOfBlendShapes; ///< Total number of blend shapes loaded. uniform highp float uBlendShapeWeight[MAX_BLEND_SHAPE_NUMBER]; ///< The weight of each blend shape. #ifdef MORPH_VERSION_2_0 uniform highp float uBlendShapeUnnormalizeFactor; ///< Factor used to unnormalize the geometry of the blend shape. #else uniform highp float uBlendShapeUnnormalizeFactor[MAX_BLEND_SHAPE_NUMBER]; ///< Factor used to unnormalize the geometry of the blend shape. #endif uniform highp int uBlendShapeComponentSize; ///< The size in the texture of either the vertices, normals or tangents. Used to calculate the offset to address them. #endif // Shadow uniform lowp int uIsShadowEnabled; uniform highp mat4 uShadowLightViewProjectionMatrix; out highp vec3 positionFromLightView; void main() { highp vec4 position = vec4(aPosition, 1.0); highp vec3 normal = aNormal; highp vec3 tangent = aTangent.xyz; #ifdef MORPH int width = textureSize( sBlendShapeGeometry, 0 ).x; highp int blendShapeBufferOffset = 0; for( int index = 0; index < uNumberOfBlendShapes; ++index ) { highp vec3 diff = vec3(0.0); highp int vertexId = 0; highp int x = 0; highp int y = 0; highp float weight = clamp(uBlendShapeWeight[index], 0.0, 1.0); #ifdef MORPH_POSITION // Calculate the index to retrieve the geometry from the texture. vertexId = gl_VertexID + blendShapeBufferOffset; x = vertexId % width; y = vertexId / width; // Retrieves the blend shape geometry from the texture, unnormalizes it and multiply by the weight. if(0.0 != weight) { #ifdef MORPH_VERSION_2_0 highp float unnormalizeFactor = uBlendShapeUnnormalizeFactor; #else highp float unnormalizeFactor = uBlendShapeUnnormalizeFactor[index]; #endif diff = weight * unnormalizeFactor * ( texelFetch( sBlendShapeGeometry, ivec2(x, y), 0 ).xyz - 0.5 ); } position.xyz += diff; blendShapeBufferOffset += uBlendShapeComponentSize; #endif #ifdef MORPH_NORMAL // Calculate the index to retrieve the normal from the texture. vertexId = gl_VertexID + blendShapeBufferOffset; x = vertexId % width; y = vertexId / width; // Retrieves the blend shape normal from the texture, unnormalizes it and multiply by the weight. if(0.0 != weight) { diff = weight * 2.0 * ( texelFetch( sBlendShapeGeometry, ivec2(x, y), 0 ).xyz - 0.5 ); } normal += diff.xyz; blendShapeBufferOffset += uBlendShapeComponentSize; #endif #ifdef MORPH_TANGENT // Calculate the index to retrieve the tangent from the texture. vertexId = gl_VertexID + blendShapeBufferOffset; x = vertexId % width; y = vertexId / width; // Retrieves the blend shape tangent from the texture, unnormalizes it and multiply by the weight. if(0.0 != weight) { diff = weight * 2.0 * ( texelFetch( sBlendShapeGeometry, ivec2(x, y), 0 ).xyz - 0.5 ); } tangent += diff.xyz; blendShapeBufferOffset += uBlendShapeComponentSize; #endif } #endif #ifdef SKINNING highp mat4 bone = uBone[int(aJoints0.x)] * aWeights0.x + uBone[int(aJoints0.y)] * aWeights0.y + uBone[int(aJoints0.z)] * aWeights0.z + uBone[int(aJoints0.w)] * aWeights0.w; ADD_EXTRA_WEIGHTS position = bone * position; normal = uYDirection * (bone * vec4(normal, 0.0)).xyz; tangent = uYDirection * (bone * vec4(tangent, 0.0)).xyz; highp vec4 positionW = position; #else highp vec4 positionW = uModelMatrix * position; #endif highp vec4 positionV = uViewMatrix * positionW; vPositionToCamera = transpose(mat3(uViewMatrix)) * -vec3(positionV.xyz / positionV.w); normal = normalize(normal); tangent = normalize(tangent); vec3 bitangent = cross(normal, tangent); #ifdef VEC4_TANGENT bitangent *= aTangent.w; #endif vTBN = mat3(uModelMatrix) * mat3(tangent, bitangent, normal); #ifdef FLIP_V vUV = vec2(aTexCoord.x, 1.0 - aTexCoord.y); #else vUV = aTexCoord; #endif vColor = aVertexColor; positionFromLightView = vec3(1.0); if(uIsShadowEnabled > 0) { highp vec4 positionInLightView = uShadowLightViewProjectionMatrix * positionW; positionFromLightView = ((positionInLightView.xyz / positionInLightView.w) * 0.5) + vec3(0.5); } gl_Position = uProjection * positionV; }