forked from bartvdbraak/blender
9e4914e055
* Revert r57203 (len() renaming) There seems to be a problem with nVidia OpenCL after this and I haven't figured out the real cause yet. Better to selectively enable native length() later, after figuring out what's wrong. This fixes [#35612].
462 lines
12 KiB
C++
462 lines
12 KiB
C++
/*
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* Copyright 2011, Blender Foundation.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software Foundation,
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* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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*/
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#include "camera.h"
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#include "mesh.h"
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#include "subd_dice.h"
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#include "subd_patch.h"
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#include "util_debug.h"
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CCL_NAMESPACE_BEGIN
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/* EdgeDice Base */
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EdgeDice::EdgeDice(Mesh *mesh_, int shader_, bool smooth_, float dicing_rate_)
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{
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mesh = mesh_;
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mesh_P = NULL;
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mesh_N = NULL;
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vert_offset = 0;
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dicing_rate = dicing_rate_;
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shader = shader_;
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smooth = smooth_;
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camera = NULL;
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mesh->attributes.add(ATTR_STD_VERTEX_NORMAL);
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}
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void EdgeDice::reserve(int num_verts, int num_tris)
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{
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vert_offset = mesh->verts.size();
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tri_offset = mesh->triangles.size();
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mesh->reserve(vert_offset + num_verts, tri_offset + num_tris, 0, 0);
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Attribute *attr_vN = mesh->attributes.add(ATTR_STD_VERTEX_NORMAL);
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mesh_P = &mesh->verts[0];
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mesh_N = attr_vN->data_float3();
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}
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int EdgeDice::add_vert(Patch *patch, float2 uv)
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{
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float3 P, N, dPdu, dPdv;
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patch->eval(&P, &dPdu, &dPdv, uv.x, uv.y);
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N = normalize(cross(dPdu, dPdv));
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assert(vert_offset < mesh->verts.size());
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mesh_P[vert_offset] = P;
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mesh_N[vert_offset] = N;
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return vert_offset++;
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}
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void EdgeDice::add_triangle(int v0, int v1, int v2)
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{
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mesh->add_triangle(v0, v1, v2, shader, smooth);
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}
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void EdgeDice::stitch_triangles(vector<int>& outer, vector<int>& inner)
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{
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if(inner.size() == 0 || outer.size() == 0)
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return; // XXX avoid crashes for Mu or Mv == 1, missing polygons
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/* stitch together two arrays of verts with triangles. at each step,
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* we compare using the next verts on both sides, to find the split
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* direction with the smallest diagonal, and use that in order to keep
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* the triangle shape reasonable. */
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for(size_t i = 0, j = 0; i+1 < inner.size() || j+1 < outer.size();) {
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int v0, v1, v2;
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v0 = inner[i];
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v1 = outer[j];
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if(j+1 == outer.size()) {
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v2 = inner[++i];
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}
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else if(i+1 == inner.size()) {
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v2 = outer[++j];
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}
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else {
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/* length of diagonals */
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float len1 = len(mesh_P[inner[i]] - mesh_P[outer[j+1]]);
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float len2 = len(mesh_P[outer[j]] - mesh_P[inner[i+1]]);
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/* use smallest diagonal */
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if(len1 < len2)
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v2 = outer[++j];
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else
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v2 = inner[++i];
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}
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add_triangle(v0, v1, v2);
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}
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}
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/* QuadDice */
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QuadDice::QuadDice(Mesh *mesh_, int shader_, bool smooth_, float dicing_rate_)
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: EdgeDice(mesh_, shader_, smooth_, dicing_rate_)
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{
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}
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void QuadDice::reserve(EdgeFactors& ef, int Mu, int Mv)
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{
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/* XXX need to make this also work for edge factor 0 and 1 */
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int num_verts = (ef.tu0 + ef.tu1 + ef.tv0 + ef.tv1) + (Mu - 1)*(Mv - 1);
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EdgeDice::reserve(num_verts, 0);
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}
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float2 QuadDice::map_uv(SubPatch& sub, float u, float v)
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{
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/* map UV from subpatch to patch parametric coordinates */
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float2 d0 = interp(sub.P00, sub.P01, v);
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float2 d1 = interp(sub.P10, sub.P11, v);
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return interp(d0, d1, u);
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}
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float3 QuadDice::eval_projected(SubPatch& sub, float u, float v)
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{
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float2 uv = map_uv(sub, u, v);
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float3 P;
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sub.patch->eval(&P, NULL, NULL, uv.x, uv.y);
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if(camera)
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P = transform_perspective(&camera->worldtoraster, P);
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return P;
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}
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int QuadDice::add_vert(SubPatch& sub, float u, float v)
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{
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return EdgeDice::add_vert(sub.patch, map_uv(sub, u, v));
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}
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void QuadDice::add_side_u(SubPatch& sub,
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vector<int>& outer, vector<int>& inner,
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int Mu, int Mv, int tu, int side, int offset)
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{
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outer.clear();
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inner.clear();
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/* set verts on the edge of the patch */
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outer.push_back(offset + ((side)? 2: 0));
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for(int i = 1; i < tu; i++) {
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float u = i/(float)tu;
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float v = (side)? 1.0f: 0.0f;
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outer.push_back(add_vert(sub, u, v));
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}
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outer.push_back(offset + ((side)? 3: 1));
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/* set verts on the edge of the inner grid */
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for(int i = 0; i < Mu-1; i++) {
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int j = (side)? Mv-1-1: 0;
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inner.push_back(offset + 4 + i + j*(Mu-1));
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}
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}
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void QuadDice::add_side_v(SubPatch& sub,
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vector<int>& outer, vector<int>& inner,
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int Mu, int Mv, int tv, int side, int offset)
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{
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outer.clear();
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inner.clear();
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/* set verts on the edge of the patch */
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outer.push_back(offset + ((side)? 1: 0));
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for(int j = 1; j < tv; j++) {
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float u = (side)? 1.0f: 0.0f;
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float v = j/(float)tv;
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outer.push_back(add_vert(sub, u, v));
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}
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outer.push_back(offset + ((side)? 3: 2));
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/* set verts on the edge of the inner grid */
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for(int j = 0; j < Mv-1; j++) {
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int i = (side)? Mu-1-1: 0;
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inner.push_back(offset + 4 + i + j*(Mu-1));
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}
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}
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float QuadDice::quad_area(const float3& a, const float3& b, const float3& c, const float3& d)
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{
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return triangle_area(a, b, d) + triangle_area(a, d, c);
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}
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float QuadDice::scale_factor(SubPatch& sub, EdgeFactors& ef, int Mu, int Mv)
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{
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/* estimate area as 4x largest of 4 quads */
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float3 P[3][3];
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for(int i = 0; i < 3; i++)
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for(int j = 0; j < 3; j++)
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P[i][j] = eval_projected(sub, i*0.5f, j*0.5f);
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float A1 = quad_area(P[0][0], P[1][0], P[0][1], P[1][1]);
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float A2 = quad_area(P[1][0], P[2][0], P[1][1], P[2][1]);
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float A3 = quad_area(P[0][1], P[1][1], P[0][2], P[1][2]);
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float A4 = quad_area(P[1][1], P[2][1], P[1][2], P[2][2]);
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float Apatch = max(A1, max(A2, max(A3, A4)))*4.0f;
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/* solve for scaling factor */
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float Atri = dicing_rate*dicing_rate*0.5f;
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float Ntris = Apatch/Atri;
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// XXX does the -sqrt solution matter
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// XXX max(D, 0.0) is highly suspicious, need to test cases
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// where D goes negative
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float N = 0.5f*(Ntris - (ef.tu0 + ef.tu1 + ef.tv0 + ef.tv1));
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float D = 4.0f*N*Mu*Mv + (Mu + Mv)*(Mu + Mv);
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float S = (Mu + Mv + sqrtf(max(D, 0.0f)))/(2*Mu*Mv);
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return S;
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}
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void QuadDice::add_corners(SubPatch& sub)
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{
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/* add verts for patch corners */
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if(sub.patch->is_triangle()) {
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add_vert(sub, 0.0f, 0.0f);
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add_vert(sub, 1.0f, 0.0f);
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add_vert(sub, 0.0f, 1.0f);
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}
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else {
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add_vert(sub, 0.0f, 0.0f);
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add_vert(sub, 1.0f, 0.0f);
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add_vert(sub, 0.0f, 1.0f);
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add_vert(sub, 1.0f, 1.0f);
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}
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}
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void QuadDice::add_grid(SubPatch& sub, int Mu, int Mv, int offset)
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{
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/* create inner grid */
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float du = 1.0f/(float)Mu;
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float dv = 1.0f/(float)Mv;
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for(int j = 1; j < Mv; j++) {
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for(int i = 1; i < Mu; i++) {
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float u = i*du;
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float v = j*dv;
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add_vert(sub, u, v);
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if(i < Mu-1 && j < Mv-1) {
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int i1 = offset + 4 + (i-1) + (j-1)*(Mu-1);
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int i2 = offset + 4 + i + (j-1)*(Mu-1);
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int i3 = offset + 4 + i + j*(Mu-1);
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int i4 = offset + 4 + (i-1) + j*(Mu-1);
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add_triangle(i1, i2, i3);
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add_triangle(i1, i3, i4);
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}
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}
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}
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}
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void QuadDice::dice(SubPatch& sub, EdgeFactors& ef)
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{
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/* compute inner grid size with scale factor */
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int Mu = max(ef.tu0, ef.tu1);
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int Mv = max(ef.tv0, ef.tv1);
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float S = scale_factor(sub, ef, Mu, Mv);
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Mu = max((int)ceil(S*Mu), 2); // XXX handle 0 & 1?
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Mv = max((int)ceil(S*Mv), 2); // XXX handle 0 & 1?
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/* reserve space for new verts */
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int offset = mesh->verts.size();
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reserve(ef, Mu, Mv);
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/* corners and inner grid */
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add_corners(sub);
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add_grid(sub, Mu, Mv, offset);
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/* bottom side */
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vector<int> outer, inner;
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add_side_u(sub, outer, inner, Mu, Mv, ef.tu0, 0, offset);
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stitch_triangles(outer, inner);
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/* top side */
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add_side_u(sub, outer, inner, Mu, Mv, ef.tu1, 1, offset);
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stitch_triangles(inner, outer);
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/* left side */
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add_side_v(sub, outer, inner, Mu, Mv, ef.tv0, 0, offset);
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stitch_triangles(inner, outer);
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/* right side */
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add_side_v(sub, outer, inner, Mu, Mv, ef.tv1, 1, offset);
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stitch_triangles(outer, inner);
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assert(vert_offset == mesh->verts.size());
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}
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/* TriangleDice */
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TriangleDice::TriangleDice(Mesh *mesh_, int shader_, bool smooth_, float dicing_rate_)
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: EdgeDice(mesh_, shader_, smooth_, dicing_rate_)
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{
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}
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void TriangleDice::reserve(EdgeFactors& ef, int M)
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{
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int num_verts = ef.tu + ef.tv + ef.tw;
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for(int m = M-2; m > 0; m -= 2)
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num_verts += 3 + (m-1)*3;
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if(!(M & 1))
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num_verts++;
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EdgeDice::reserve(num_verts, 0);
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}
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float2 TriangleDice::map_uv(SubPatch& sub, float2 uv)
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{
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/* map UV from subpatch to patch parametric coordinates */
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return uv.x*sub.Pu + uv.y*sub.Pv + (1.0f - uv.x - uv.y)*sub.Pw;
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}
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int TriangleDice::add_vert(SubPatch& sub, float2 uv)
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{
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return EdgeDice::add_vert(sub.patch, map_uv(sub, uv));
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}
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void TriangleDice::add_grid(SubPatch& sub, EdgeFactors& ef, int M)
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{
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// XXX normals are flipped, why?
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/* grid is constructed starting from the outside edges, and adding
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* progressively smaller inner triangles that connected to the outer
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* one, until M = 1 or 2, the we fill up the last part. */
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vector<int> outer_u, outer_v, outer_w;
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int m;
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/* add outer corners vertices */
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{
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float2 p_u = make_float2(1.0f, 0.0f);
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float2 p_v = make_float2(0.0f, 1.0f);
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float2 p_w = make_float2(0.0f, 0.0f);
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int corner_u = add_vert(sub, p_u);
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int corner_v = add_vert(sub, p_v);
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int corner_w = add_vert(sub, p_w);
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outer_u.push_back(corner_v);
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outer_v.push_back(corner_w);
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outer_w.push_back(corner_u);
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for(int i = 1; i < ef.tu; i++)
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outer_u.push_back(add_vert(sub, interp(p_v, p_w, i/(float)ef.tu)));
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for(int i = 1; i < ef.tv; i++)
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outer_v.push_back(add_vert(sub, interp(p_w, p_u, i/(float)ef.tv)));
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for(int i = 1; i < ef.tw; i++)
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outer_w.push_back(add_vert(sub, interp(p_u, p_v, i/(float)ef.tw)));
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outer_u.push_back(corner_w);
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outer_v.push_back(corner_u);
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outer_w.push_back(corner_v);
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}
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for(m = M-2; m > 0; m -= 2) {
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vector<int> inner_u, inner_v, inner_w;
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const float t0 = m / (float)M;
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float2 center = make_float2(1.0f/3.0f, 1.0f/3.0f);
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/* 3 corner vertices */
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float2 p_u = interp(center, make_float2(1.0f, 0.0f), t0);
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float2 p_v = interp(center, make_float2(0.0f, 1.0f), t0);
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float2 p_w = interp(center, make_float2(0.0f, 0.0f), t0);
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int corner_u = add_vert(sub, p_u);
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int corner_v = add_vert(sub, p_v);
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int corner_w = add_vert(sub, p_w);
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/* construct array of vertex indices for each side */
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inner_u.push_back(corner_v);
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inner_v.push_back(corner_w);
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inner_w.push_back(corner_u);
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for(int i = 1; i < m; i++) {
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/* add vertices between corners */
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const float t1 = i / (float)m;
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inner_u.push_back(add_vert(sub, interp(p_v, p_w, t1)));
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inner_v.push_back(add_vert(sub, interp(p_w, p_u, t1)));
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inner_w.push_back(add_vert(sub, interp(p_u, p_v, t1)));
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}
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inner_u.push_back(corner_w);
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inner_v.push_back(corner_u);
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inner_w.push_back(corner_v);
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/* stitch together inner/outer with triangles */
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stitch_triangles(outer_u, inner_u);
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stitch_triangles(outer_v, inner_v);
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stitch_triangles(outer_w, inner_w);
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outer_u = inner_u;
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outer_v = inner_v;
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outer_w = inner_w;
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}
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/* fill up last part */
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if(m == -1) {
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/* single triangle */
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add_triangle(outer_w[0], outer_u[0], outer_v[0]);
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}
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else {
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/* center vertex + 6 triangles */
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int center = add_vert(sub, make_float2(1.0f/3.0f, 1.0f/3.0f));
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add_triangle(outer_w[0], outer_w[1], center);
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add_triangle(outer_w[1], outer_w[2], center);
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add_triangle(outer_u[0], outer_u[1], center);
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add_triangle(outer_u[1], outer_u[2], center);
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add_triangle(outer_v[0], outer_v[1], center);
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add_triangle(outer_v[1], outer_v[2], center);
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}
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}
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void TriangleDice::dice(SubPatch& sub, EdgeFactors& ef)
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{
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/* todo: handle 2 1 1 resolution */
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int M = max(ef.tu, max(ef.tv, ef.tw));
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reserve(ef, M);
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add_grid(sub, ef, M);
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assert(vert_offset == mesh->verts.size());
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}
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CCL_NAMESPACE_END
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