mirror of
https://github.com/PixarAnimationStudios/OpenSubdiv
synced 2024-12-04 17:00:06 +00:00
346 lines
11 KiB
C++
346 lines
11 KiB
C++
//
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// Copyright 2013 Pixar
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//
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// Licensed under the Apache License, Version 2.0 (the "Apache License")
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// with the following modification; you may not use this file except in
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// compliance with the Apache License and the following modification to it:
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// Section 6. Trademarks. is deleted and replaced with:
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//
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// 6. Trademarks. This License does not grant permission to use the trade
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// names, trademarks, service marks, or product names of the Licensor
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// and its affiliates, except as required to comply with Section 4(c) of
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// the License and to reproduce the content of the NOTICE file.
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//
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// You may obtain a copy of the Apache License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the Apache License with the above modification is
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// distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
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// KIND, either express or implied. See the Apache License for the specific
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// language governing permissions and limitations under the Apache License.
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//
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#ifndef FAR_INTERPOLATE_H
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#define FAR_INTERPOLATE_H
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#include "../version.h"
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#include "../far/patchParam.h"
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#include "../far/stencilTables.h"
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namespace OpenSubdiv {
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namespace OPENSUBDIV_VERSION {
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namespace Far {
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// XXXX
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//
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// Note 1 : interpolation functions will eventually need to be augmented to
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// handle second order derivatives
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//
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// Note 2 : evaluation of derivatives need to be ptional (passing NULL to
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// dQ1 and dQ2 to the weights functions will do this)
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void GetBilinearWeights(PatchParam::BitField bits,
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float s, float t, float point[4], float deriv1[4], float deriv2[4]);
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void GetBezierWeights(PatchParam::BitField bits,
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float s, float t, float point[16], float deriv1[16], float deriv2[16]);
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void GetBSplineWeights(PatchParam::BitField bits,
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float s, float t, float point[16], float deriv1[16], float deriv2[16]);
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/// \brief Interpolate the (s,t) parametric location of a bilinear (quad)
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/// patch
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///
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/// @param cvs Array of 16 control vertex indices
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///
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/// @param Q Array of 16 bicubic weights for the control vertices
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///
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/// @param Qd1 Array of 16 bicubic 's' tangent weights for the control
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/// vertices
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///
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/// @param Qd2 Array of 16 bicubic 't' tangent weights for the control
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/// vertices
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///
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/// @param src Source primvar buffer (control vertices data)
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///
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/// @param dst Destination primvar buffer (limit surface data)
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///
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template <class T, class U>
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inline void
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InterpolateBilinearPatch(Index const * cvs,
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float const * Q, float const *Qd1, float const *Qd2,
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T const & src, U & dst) {
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//
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// v0 -- v1
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// |.....|
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// |.....|
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// v3 -- v2
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//
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for (int k=0; k<4; ++k) {
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dst.AddWithWeight(src[cvs[k]], Q[k], Qd1[k], Qd2[k]);
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}
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}
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/// \brief Interpolate the (s,t) parametric location of a regular bicubic
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/// patch
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///
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/// @param cvs Array of 16 control vertex indices
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///
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/// @param Q Array of 16 bicubic weights for the control vertices
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///
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/// @param Qd1 Array of 16 bicubic 's' tangent weights for the control
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/// vertices
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///
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/// @param Qd2 Array of 16 bicubic 't' tangent weights for the control
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/// vertices
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///
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/// @param src Source primvar buffer (control vertices data)
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///
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/// @param dst Destination primvar buffer (limit surface data)
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///
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template <class T, class U>
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inline void
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InterpolateRegularPatch(Index const * cvs,
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float const * Q, float const *Qd1, float const *Qd2,
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T const & src, U & dst) {
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//
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// v0 -- v1 -- v2 -- v3
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// |.....|.....|.....|
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// |.....|.....|.....|
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// v4 -- v5 -- v6 -- v7
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// |.....|.....|.....|
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// |.....|.....|.....|
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// v8 -- v9 -- v10-- v11
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// |.....|.....|.....|
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// |.....|.....|.....|
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// v12-- v13-- v14-- v15
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//
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for (int k=0; k<16; ++k) {
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dst.AddWithWeight(src[cvs[k]], Q[k], Qd1[k], Qd2[k]);
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}
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}
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/// \brief Interpolate the (s,t) parametric location of a boundary bicubic
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/// patch
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///
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/// @param cvs Array of 12 control vertex indices
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///
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/// @param Q Array of 12 bicubic weights for the control vertices
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///
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/// @param Qd1 Array of 12 bicubic 's' tangent weights for the control
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/// vertices
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///
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/// @param Qd2 Array of 12 bicubic 't' tangent weights for the control
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/// vertices
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///
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/// @param src Source primvar buffer (control vertices data)
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///
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/// @param dst Destination primvar buffer (limit surface data)
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///
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template <class T, class U>
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inline void
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InterpolateBoundaryPatch(Index const * cvs,
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float const * Q, float const *Qd1, float const *Qd2,
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T const & src, U & dst) {
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// mirror the missing vertices (M)
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//
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// M0 -- M1 -- M2 -- M3 (corner)
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// | | | |
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// | | | |
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// v0 -- v1 -- v2 -- v3 M : mirrored
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// |.....|.....|.....|
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// |.....|.....|.....|
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// v4 -- v5 -- v6 -- v7 v : original Cv
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// |.....|.....|.....|
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// |.....|.....|.....|
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// v8 -- v9 -- v10-- v11
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//
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for (int k=0; k<4; ++k) { // M0 - M3
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dst.AddWithWeight(src[cvs[k]], 2.0f*Q[k], 2.0f*Qd1[k], 2.0f*Qd2[k]);
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dst.AddWithWeight(src[cvs[k+4]], -1.0f*Q[k], -1.0f*Qd1[k], -1.0f*Qd2[k]);
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}
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for (int k=0; k<12; ++k) {
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dst.AddWithWeight(src[cvs[k]], Q[k+4], Qd1[k+4], Qd2[k+4]);
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}
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}
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/// \brief Interpolate the (s,t) parametric location of a corner bicubic
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/// patch
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///
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/// @param cvs Array of 9 control vertex indices
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///
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/// @param Q Array of 9 bicubic weights for the control vertices
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///
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/// @param Qd1 Array of 9 bicubic 's' tangent weights for the control
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/// vertices
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///
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/// @param Qd2 Array of 9 bicubic 't' tangent weights for the control
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/// vertices
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///
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/// @param src Source primvar buffer (control vertices data)
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///
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/// @param dst Destination primvar buffer (limit surface data)
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///
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template <class T, class U>
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inline void
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InterpolateCornerPatch(Index const * cvs,
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float const * Q, float const *Qd1, float const *Qd2,
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T const & src, U & dst) {
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// mirror the missing vertices (M)
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//
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// M0 -- M1 -- M2 -- M3 (corner)
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// | | | |
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// | | | |
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// v0 -- v1 -- v2 -- M4 M : mirrored
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// |.....|.....| |
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// |.....|.....| |
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// v3.--.v4.--.v5 -- M5 v : original Cv
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// |.....|.....| |
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// |.....|.....| |
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// v6 -- v7 -- v8 -- M6
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//
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for (int k=0; k<3; ++k) { // M0 - M2
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dst.AddWithWeight(src[cvs[k ]], 2.0f*Q[k], 2.0f*Qd1[k], 2.0f*Qd2[k]);
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dst.AddWithWeight(src[cvs[k+3]], -1.0f*Q[k], -1.0f*Qd1[k], -1.0f*Qd2[k]);
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}
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for (int k=0; k<3; ++k) { // M4 - M6
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int idx = (k+1)*4 + 3;
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dst.AddWithWeight(src[cvs[k*3+2]], 2.0f*Q[idx], 2.0f*Qd1[idx], 2.0f*Qd2[idx]);
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dst.AddWithWeight(src[cvs[k*3+1]], -1.0f*Q[idx], -1.0f*Qd1[idx], -1.0f*Qd2[idx]);
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}
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// M3 = -2.v1 + 4.v2 + v4 - 2.v5
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dst.AddWithWeight(src[cvs[1]], -2.0f*Q[3], -2.0f*Qd1[3], -2.0f*Qd2[3]);
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dst.AddWithWeight(src[cvs[2]], 4.0f*Q[3], 4.0f*Qd1[3], 4.0f*Qd2[3]);
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dst.AddWithWeight(src[cvs[4]], 1.0f*Q[3], 1.0f*Qd1[3], 1.0f*Qd2[3]);
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dst.AddWithWeight(src[cvs[5]], -2.0f*Q[3], -2.0f*Qd1[3], -2.0f*Qd2[3]);
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for (int y=0; y<3; ++y) { // v0 - v8
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for (int x=0; x<3; ++x) {
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int idx = y*4+x+4;
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dst.AddWithWeight(src[cvs[y*3+x]], Q[idx], Qd1[idx], Qd2[idx]);
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}
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}
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}
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/// \brief Interpolate the (s,t) parametric location of a Gregory bicubic
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/// patch
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///
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/// @param cvs Array of 20 control vertex indices
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///
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/// @param s Patch coordinate (in coarse face normalized space)
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///
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/// @param t Patch coordinate (in coarse face normalized space)
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///
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/// @param Q Array of 9 bicubic weights for the control vertices
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///
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/// @param Qd1 Array of 9 bicubic 's' tangent weights for the control
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/// vertices
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///
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/// @param Qd2 Array of 9 bicubic 't' tangent weights for the control
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/// vertices
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///
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/// @param src Source primvar buffer (control vertices data)
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///
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/// @param dst Destination primvar buffer (limit surface data)
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///
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template <class T, class U>
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inline void
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InterpolateGregoryPatch(Index const *cvs, float s, float t,
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float const * Q, float const *Qd1, float const *Qd2,
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T const & src, U & dst) {
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float ss = 1-s,
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tt = 1-t;
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// remark #1572: floating-point equality and inequality comparisons are unreliable
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#ifdef __INTEL_COMPILER
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#pragma warning disable 1572
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#endif
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float d11 = s+t; if(s+t==0.0f) d11 = 1.0f;
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float d12 = ss+t; if(ss+t==0.0f) d12 = 1.0f;
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float d21 = s+tt; if(s+tt==0.0f) d21 = 1.0f;
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float d22 = ss+tt; if(ss+tt==0.0f) d22 = 1.0f;
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#ifdef __INTEL_COMPILER
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#pragma warning enable 1572
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#endif
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float weights[4][2] = { { s/d11, t/d11 },
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{ ss/d12, t/d12 },
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{ s/d21, tt/d21 },
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{ ss/d22, tt/d22 } };
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//
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// P3 e3- e2+ P2
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// 15------17-------11--------10
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// | | | |
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// | | | |
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// | | f3- | f2+ |
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// | 19 13 |
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// e3+ 16-----18 14-----12 e2-
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// | f3+ f2- |
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// | |
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// | |
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// | f0- f1+ |
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// e0- 2------4 8------6 e1+
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// | 3 9 |
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// | | f0+ | f1- |
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// | | | |
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// | | | |
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// O--------1--------7--------5
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// P0 e0+ e1- P1
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//
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// gregory-to-bezier map
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static int const permute[16] =
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{ 0, 1, 7, 5, 2, -1, -2, 6, 16, -3, -4, 12, 15, 17, 11, 10 };
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for (int k = 0; k < 16; ++k) {
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int index = permute[k];
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if (index >=0) {
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dst.AddWithWeight(src[cvs[index]], Q[k], Qd1[k], Qd2[k]);
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} else if (index == -1) {
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// 3, 4
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float w0 = weights[0][0];
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float w1 = weights[0][1];
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dst.AddWithWeight(src[cvs[3]], w0*Q[k], w0*Qd1[k], w0*Qd2[k]);
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dst.AddWithWeight(src[cvs[4]], w1*Q[k], w1*Qd1[k], w1*Qd2[k]);
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} else if (index == -2) {
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// 8, 9
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float w0 = weights[1][0];
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float w1 = weights[1][1];
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dst.AddWithWeight(src[cvs[9]], w0*Q[k], w0*Qd1[k], w0*Qd2[k]);
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dst.AddWithWeight(src[cvs[8]], w1*Q[k], w1*Qd1[k], w1*Qd2[k]);
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} else if (index == -3) {
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// 18, 19
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float w0 = weights[2][0];
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float w1 = weights[2][1];
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dst.AddWithWeight(src[cvs[19]], w0*Q[k], w0*Qd1[k], w0*Qd2[k]);
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dst.AddWithWeight(src[cvs[18]], w1*Q[k], w1*Qd1[k], w1*Qd2[k]);
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} else if (index == -4) {
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// 13, 14
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float w0 = weights[3][0];
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float w1 = weights[3][1];
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dst.AddWithWeight(src[cvs[13]], w0*Q[k], w0*Qd1[k], w0*Qd2[k]);
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dst.AddWithWeight(src[cvs[14]], w1*Q[k], w1*Qd1[k], w1*Qd2[k]);
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}
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}
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}
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} // end namespace Far
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} // end namespace OPENSUBDIV_VERSION
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using namespace OPENSUBDIV_VERSION;
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} // end namespace OpenSubdiv
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#endif /* FAR_INTERPOLATE_H */
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