mirror of
https://github.com/PixarAnimationStudios/OpenSubdiv
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347 lines
11 KiB
Plaintext
347 lines
11 KiB
Plaintext
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//
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// Copyright (C) Pixar. All rights reserved.
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//
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// This license governs use of the accompanying software. If you
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// use the software, you accept this license. If you do not accept
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// the license, do not use the software.
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//
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// 1. Definitions
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// The terms "reproduce," "reproduction," "derivative works," and
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// "distribution" have the same meaning here as under U.S.
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// copyright law. A "contribution" is the original software, or
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// any additions or changes to the software.
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// A "contributor" is any person or entity that distributes its
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// contribution under this license.
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// "Licensed patents" are a contributor's patent claims that read
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// directly on its contribution.
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//
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// 2. Grant of Rights
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// (A) Copyright Grant- Subject to the terms of this license,
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// including the license conditions and limitations in section 3,
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// each contributor grants you a non-exclusive, worldwide,
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// royalty-free copyright license to reproduce its contribution,
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// prepare derivative works of its contribution, and distribute
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// its contribution or any derivative works that you create.
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// (B) Patent Grant- Subject to the terms of this license,
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// including the license conditions and limitations in section 3,
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// each contributor grants you a non-exclusive, worldwide,
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// royalty-free license under its licensed patents to make, have
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// made, use, sell, offer for sale, import, and/or otherwise
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// dispose of its contribution in the software or derivative works
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// of the contribution in the software.
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//
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// 3. Conditions and Limitations
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// (A) No Trademark License- This license does not grant you
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// rights to use any contributor's name, logo, or trademarks.
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// (B) If you bring a patent claim against any contributor over
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// patents that you claim are infringed by the software, your
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// patent license from such contributor to the software ends
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// automatically.
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// (C) If you distribute any portion of the software, you must
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// retain all copyright, patent, trademark, and attribution
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// notices that are present in the software.
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// (D) If you distribute any portion of the software in source
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// code form, you may do so only under this license by including a
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// complete copy of this license with your distribution. If you
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// distribute any portion of the software in compiled or object
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// code form, you may only do so under a license that complies
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// with this license.
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// (E) The software is licensed "as-is." You bear the risk of
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// using it. The contributors give no express warranties,
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// guarantees or conditions. You may have additional consumer
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// rights under your local laws which this license cannot change.
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// To the extent permitted under your local laws, the contributors
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// exclude the implied warranties of merchantability, fitness for
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// a particular purpose and non-infringement.
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//
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#version 400
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subroutine void computeKernelType();
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subroutine uniform computeKernelType computeKernel;
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uniform isamplerBuffer _F0_IT;
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uniform isamplerBuffer _F0_ITa;
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uniform isamplerBuffer _E0_IT;
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uniform isamplerBuffer _V0_IT;
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uniform isamplerBuffer _V0_ITa;
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uniform samplerBuffer _E0_S;
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uniform samplerBuffer _V0_S;
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uniform bool vertexPass;
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uniform int indexOffset = 0; // index offset for the level
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uniform int indexStart = 0; // start index for given batch
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uniform int F_IT_ofs;
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uniform int F_ITa_ofs;
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uniform int E_IT_ofs;
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uniform int V_IT_ofs;
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uniform int V_ITa_ofs;
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uniform int E_W_ofs;
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uniform int V_W_ofs;
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/*
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+-----+---------------------------------+-----
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n-1 | Level n |<batch range>| | n+1
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+-----+---------------------------------+-----
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^ ^
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indexOffset |
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indexStart
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*/
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//--------------------------------------------------------------------------------
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struct Vertex
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{
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vec3 position;
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vec3 normal;
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#if NUM_VARYING > 0
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float varyingData[NUM_VARYING]; // XXX: should use vec4 and packing
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#endif
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};
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uniform samplerBuffer vertex; // vec3[2] (position, normal)
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#if NUM_VARYING > 0
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uniform samplerBuffer varyingData; // float[NUM_VARYING]
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#endif
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out vec3 outPosition;
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out vec3 outNormal;
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#if NUM_VARYING > 0
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out float outVaryingData[NUM_VARYING]; // output feedback (mapped as a subrange of vertices)
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#endif
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//out vec3 outVaryingData; // output feedback (mapped as a subrange of vertices)
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void clear(out Vertex v)
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{
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v.position = vec3(0);
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v.normal = vec3(0);
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#if NUM_VARYING > 0
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for(int i = 0; i < NUM_VARYING; i++){
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v.varyingData[i] = 0;
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}
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#endif
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}
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Vertex readVertex(int index)
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{
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// XXX: should be split into two parts for addWithWeight and addVaryingWithWeight
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Vertex v;
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// unpacking
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v.position = texelFetch(vertex, index*2).xyz;
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v.normal = texelFetch(vertex, index*2+1).xyz;
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#if NUM_VARYING > 0
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int stride = NUM_VARYING;
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for(int i = 0; i < NUM_VARYING; i++){
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v.varyingData[i] = texelFetch(varyingData, index*stride+i).x;
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}
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#endif
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return v;
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}
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void writeVertex(Vertex v)
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{
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// packing
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outPosition = v.position;
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outNormal = normalize(v.normal);
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#if NUM_VARYING > 0
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for(int i = 0; i < NUM_VARYING; i++){
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outVaryingData[i] = v.varyingData[i];
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}
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#endif
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}
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void addWithWeight(inout Vertex v, Vertex src, float weight)
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{
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v.position += weight * src.position;
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v.normal += weight * src.normal;
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}
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void addVaryingWithWeight(inout Vertex v, Vertex src, float weight)
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{
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#if NUM_VARYING > 0
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for(int i = 0; i < NUM_VARYING; i++){
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v.varyingData[i] += weight * src.varyingData[i];
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}
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#endif
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}
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//--------------------------------------------------------------------------------
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// Face-vertices compute Kernel
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subroutine(computeKernelType)
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void catmarkComputeFace()
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{
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int i = gl_VertexID + indexStart;
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int h = texelFetch(_F0_ITa, F_ITa_ofs+2*i).x;
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int n = texelFetch(_F0_ITa, F_ITa_ofs+2*i+1).x;
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float weight = 1.0/n;
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Vertex dst;
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clear(dst);
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for(int j=0; j<n; ++j){
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int index = texelFetch(_F0_IT, F_IT_ofs+h+j).x;
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addWithWeight(dst, readVertex(index), weight);
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addVaryingWithWeight(dst, readVertex(index), weight);
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}
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writeVertex(dst);
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}
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// Edge-vertices compute Kernel
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subroutine(computeKernelType)
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void catmarkComputeEdge()
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{
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int i = gl_VertexID + indexStart;
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Vertex dst;
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clear(dst);
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#ifdef OPT_E0_IT_VEC4
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ivec4 eidx = texelFetch(_E0_IT, E_IT_ofs/4+i);
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#else
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int eidx0 = texelFetch(_E0_IT, E_IT_ofs+4*i+0).x;
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int eidx1 = texelFetch(_E0_IT, E_IT_ofs+4*i+1).x;
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int eidx2 = texelFetch(_E0_IT, E_IT_ofs+4*i+2).x;
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int eidx3 = texelFetch(_E0_IT, E_IT_ofs+4*i+3).x;
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ivec4 eidx = ivec4(eidx0, eidx1, eidx2, eidx3);
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#endif
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#ifdef OPT_E0_S_VEC2
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vec2 weight = texelFetch(_E0_S, E_W_ofs/2+i).xy;
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float vertWeight = weight.x;
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#else
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float vertWeight = texelFetch(_E0_S, E_W_ofs+i*2+0).x;
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#endif
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// Fully sharp edge : vertWeight = 0.5f;
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addWithWeight(dst, readVertex(eidx.x), vertWeight);
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addWithWeight(dst, readVertex(eidx.y), vertWeight);
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if(eidx.z != -1){
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#ifdef OPT_E0_S_VEC2
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float faceWeight = weight.y;
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#else
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float faceWeight = texelFetch(_E0_S, E_W_ofs/2+i*2+1).x;
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#endif
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addWithWeight(dst, readVertex(eidx.z), faceWeight);
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addWithWeight(dst, readVertex(eidx.w), faceWeight);
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}
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addVaryingWithWeight(dst, readVertex(eidx.x), 0.5f);
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addVaryingWithWeight(dst, readVertex(eidx.y), 0.5f);
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writeVertex(dst);
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}
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// Vertex-vertices compute Kernels 'A' / k_Crease and k_Corner rules
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subroutine(computeKernelType)
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void catmarkComputeVertexA()
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{
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int i = gl_VertexID + indexStart;
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int n = texelFetch(_V0_ITa, V_ITa_ofs+5*i+1).x;
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int p = texelFetch(_V0_ITa, V_ITa_ofs+5*i+2).x;
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int eidx0 = texelFetch(_V0_ITa, V_ITa_ofs+5*i+3).x;
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int eidx1 = texelFetch(_V0_ITa, V_ITa_ofs+5*i+4).x;
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float weight = vertexPass
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? texelFetch(_V0_S, V_W_ofs+i).x
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: 1.0 - texelFetch(_V0_S, V_W_ofs+i).x;
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// In the case of fractional weight, the weight must be inverted since
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// the value is shared with the k_Smooth kernel (statistically the
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// k_Smooth kernel runs much more often than this one)
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if (weight>0.0 && weight<1.0 && n > 0)
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weight=1.0-weight;
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Vertex dst;
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if(! vertexPass)
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clear(dst);
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else
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dst = readVertex(i + indexOffset);
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if (eidx0==-1 || (vertexPass==false && (n==-1)) ) {
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addWithWeight(dst, readVertex(p), weight);
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} else {
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addWithWeight(dst, readVertex(p), weight * 0.75f);
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addWithWeight(dst, readVertex(eidx0), weight * 0.125f);
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addWithWeight(dst, readVertex(eidx1), weight * 0.125f);
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}
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if(! vertexPass)
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addVaryingWithWeight(dst, readVertex(p), 1);
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writeVertex(dst);
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}
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// Vertex-vertices compute Kernels 'B' / k_Dart and k_Smooth rules
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subroutine(computeKernelType)
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void catmarkComputeVertexB()
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{
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int i = gl_VertexID + indexStart;
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int h = texelFetch(_V0_ITa, V_ITa_ofs+5*i).x;
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#ifdef OPT_CATMARK_V_IT_VEC2
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int h2 = h/2;
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#endif
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int n = texelFetch(_V0_ITa, V_ITa_ofs+5*i+1).x;
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int p = texelFetch(_V0_ITa, V_ITa_ofs+5*i+2).x;
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float weight = texelFetch(_V0_S, V_W_ofs+i).x;
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float wp = 1.0/float(n*n);
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float wv = (n-2.0) * n * wp;
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Vertex dst;
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clear(dst);
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addWithWeight(dst, readVertex(p), weight * wv);
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for(int j = 0; j < n; ++j){
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#ifdef OPT_CATMARK_V_IT_VEC2
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ivec2 v0it = texelFetch(_V0_IT, V_IT_ofs/2+h2+j).xy;
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addWithWeight(dst, readVertex(v0it.x), weight * wp);
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addWithWeight(dst, readVertex(v0it.y), weight * wp);
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#else
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addWithWeight(dst, readVertex(texelFetch(_V0_IT, V_IT_ofs+h+j*2).x), weight * wp);
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addWithWeight(dst, readVertex(texelFetch(_V0_IT, V_IT_ofs+h+j*2+1).x), weight * wp);
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#endif
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}
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addVaryingWithWeight(dst, readVertex(p), 1);
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writeVertex(dst);
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}
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// Vertex-vertices compute Kernels 'B' / k_Dart and k_Smooth rules
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subroutine(computeKernelType)
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void loopComputeVertexB()
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{
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float PI = 3.14159265358979323846264;
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int i = gl_VertexID + indexStart;
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int h = texelFetch(_V0_ITa, V_ITa_ofs+5*i).x;
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int n = texelFetch(_V0_ITa, V_ITa_ofs+5*i+1).x;
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int p = texelFetch(_V0_ITa, V_ITa_ofs+5*i+2).x;
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float weight = texelFetch(_V0_S, V_W_ofs+i).x;
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float wp = 1.0/n;
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float beta = 0.25 * cos(PI*2.0f*wp)+0.375f;
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beta = beta * beta;
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beta = (0.625f-beta)*wp;
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Vertex dst;
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clear(dst);
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addWithWeight(dst, readVertex(p), weight * (1.0-(beta*n)));
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for(int j = 0; j < n; ++j){
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addWithWeight(dst, readVertex(texelFetch(_V0_IT, V_IT_ofs+h+j).x), weight * beta);
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}
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addVaryingWithWeight(dst, readVertex(p), 1);
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writeVertex(dst);
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}
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void main()
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{
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// call subroutine
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computeKernel();
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}
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