blender/intern/cycles/subd/subd_split.cpp
2014-05-03 07:31:46 +10:00

319 lines
7.6 KiB
C++

/*
* Copyright 2011-2013 Blender Foundation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License
*/
#include "camera.h"
#include "mesh.h"
#include "subd_dice.h"
#include "subd_patch.h"
#include "subd_split.h"
#include "util_debug.h"
#include "util_math.h"
#include "util_types.h"
CCL_NAMESPACE_BEGIN
/* DiagSplit */
DiagSplit::DiagSplit(const SubdParams& params_)
: params(params_)
{
}
void DiagSplit::dispatch(QuadDice::SubPatch& sub, QuadDice::EdgeFactors& ef)
{
subpatches_quad.push_back(sub);
edgefactors_quad.push_back(ef);
}
void DiagSplit::dispatch(TriangleDice::SubPatch& sub, TriangleDice::EdgeFactors& ef)
{
subpatches_triangle.push_back(sub);
edgefactors_triangle.push_back(ef);
}
float3 DiagSplit::project(Patch *patch, float2 uv)
{
float3 P;
patch->eval(&P, NULL, NULL, uv.x, uv.y);
if(params.camera)
P = transform_perspective(&params.camera->worldtoraster, P);
return P;
}
int DiagSplit::T(Patch *patch, float2 Pstart, float2 Pend)
{
float3 Plast = make_float3(0.0f, 0.0f, 0.0f);
float Lsum = 0.0f;
float Lmax = 0.0f;
for(int i = 0; i < params.test_steps; i++) {
float t = i/(float)(params.test_steps-1);
float3 P = project(patch, Pstart + t*(Pend - Pstart));
if(i > 0) {
float L = len(P - Plast);
Lsum += L;
Lmax = max(L, Lmax);
}
Plast = P;
}
int tmin = (int)ceil(Lsum/params.dicing_rate);
int tmax = (int)ceil((params.test_steps-1)*Lmax/params.dicing_rate); // XXX paper says N instead of N-1, seems wrong?
if(tmax - tmin > params.split_threshold)
return DSPLIT_NON_UNIFORM;
return tmax;
}
void DiagSplit::partition_edge(Patch *patch, float2 *P, int *t0, int *t1, float2 Pstart, float2 Pend, int t)
{
if(t == DSPLIT_NON_UNIFORM) {
*P = (Pstart + Pend)*0.5f;
*t0 = T(patch, Pstart, *P);
*t1 = T(patch, *P, Pend);
}
else {
int I = (int)floor((float)t*0.5f);
*P = interp(Pstart, Pend, (t == 0)? 0: I/(float)t); /* XXX is t faces or verts */
*t0 = I;
*t1 = t - I;
}
}
void DiagSplit::split(TriangleDice::SubPatch& sub, TriangleDice::EdgeFactors& ef, int depth)
{
assert(ef.tu == T(sub.patch, sub.Pv, sub.Pw));
assert(ef.tv == T(sub.patch, sub.Pw, sub.Pu));
assert(ef.tw == T(sub.patch, sub.Pu, sub.Pv));
if(depth == 0) {
dispatch(sub, ef);
return;
}
if(ef.tu == DSPLIT_NON_UNIFORM) {
/* partition edges */
TriangleDice::EdgeFactors ef0, ef1;
float2 Psplit;
partition_edge(sub.patch,
&Psplit, &ef1.tu, &ef0.tu, sub.Pv, sub.Pw, ef.tu);
/* split */
int tsplit = T(sub.patch, sub.Pu, Psplit);
ef0.tv = ef.tv;
ef0.tw = tsplit;
ef1.tv = tsplit;
ef1.tw = ef.tw;
/* create subpatches */
TriangleDice::SubPatch sub0 = {sub.patch, sub.Pu, Psplit, sub.Pw};
TriangleDice::SubPatch sub1 = {sub.patch, sub.Pu, sub.Pv, Psplit};
split(sub0, ef0, depth+1);
split(sub1, ef1, depth+1);
}
else if(ef.tv == DSPLIT_NON_UNIFORM) {
/* partition edges */
TriangleDice::EdgeFactors ef0, ef1;
float2 Psplit;
partition_edge(sub.patch,
&Psplit, &ef1.tu, &ef0.tu, sub.Pw, sub.Pu, ef.tv);
/* split */
int tsplit = T(sub.patch, sub.Pv, Psplit);
ef0.tv = ef.tw;
ef0.tw = tsplit;
ef1.tv = tsplit;
ef1.tw = ef.tu;
/* create subpatches */
TriangleDice::SubPatch sub0 = {sub.patch, sub.Pv, Psplit, sub.Pu};
TriangleDice::SubPatch sub1 = {sub.patch, sub.Pv, sub.Pw, Psplit};
split(sub0, ef0, depth+1);
split(sub1, ef1, depth+1);
}
else if(ef.tw == DSPLIT_NON_UNIFORM) {
/* partition edges */
TriangleDice::EdgeFactors ef0, ef1;
float2 Psplit;
partition_edge(sub.patch,
&Psplit, &ef1.tu, &ef0.tu, sub.Pu, sub.Pv, ef.tw);
/* split */
int tsplit = T(sub.patch, sub.Pw, Psplit);
ef0.tv = ef.tu;
ef0.tw = tsplit;
ef1.tv = tsplit;
ef1.tw = ef.tv;
/* create subpatches */
TriangleDice::SubPatch sub0 = {sub.patch, sub.Pw, Psplit, sub.Pv};
TriangleDice::SubPatch sub1 = {sub.patch, sub.Pw, sub.Pu, Psplit};
split(sub0, ef0, depth+1);
split(sub1, ef1, depth+1);
}
else
dispatch(sub, ef);
}
void DiagSplit::split(QuadDice::SubPatch& sub, QuadDice::EdgeFactors& ef, int depth)
{
if((ef.tu0 == DSPLIT_NON_UNIFORM || ef.tu1 == DSPLIT_NON_UNIFORM)) {
/* partition edges */
QuadDice::EdgeFactors ef0, ef1;
float2 Pu0, Pu1;
partition_edge(sub.patch,
&Pu0, &ef0.tu0, &ef1.tu0, sub.P00, sub.P10, ef.tu0);
partition_edge(sub.patch,
&Pu1, &ef0.tu1, &ef1.tu1, sub.P01, sub.P11, ef.tu1);
/* split */
int tsplit = T(sub.patch, Pu0, Pu1);
ef0.tv0 = ef.tv0;
ef0.tv1 = tsplit;
ef1.tv0 = tsplit;
ef1.tv1 = ef.tv1;
/* create subpatches */
QuadDice::SubPatch sub0 = {sub.patch, sub.P00, Pu0, sub.P01, Pu1};
QuadDice::SubPatch sub1 = {sub.patch, Pu0, sub.P10, Pu1, sub.P11};
split(sub0, ef0, depth+1);
split(sub1, ef1, depth+1);
}
else if(ef.tv0 == DSPLIT_NON_UNIFORM || ef.tv1 == DSPLIT_NON_UNIFORM) {
/* partition edges */
QuadDice::EdgeFactors ef0, ef1;
float2 Pv0, Pv1;
partition_edge(sub.patch,
&Pv0, &ef0.tv0, &ef1.tv0, sub.P00, sub.P01, ef.tv0);
partition_edge(sub.patch,
&Pv1, &ef0.tv1, &ef1.tv1, sub.P10, sub.P11, ef.tv1);
/* split */
int tsplit = T(sub.patch, Pv0, Pv1);
ef0.tu0 = ef.tu0;
ef0.tu1 = tsplit;
ef1.tu0 = tsplit;
ef1.tu1 = ef.tu1;
/* create subpatches */
QuadDice::SubPatch sub0 = {sub.patch, sub.P00, sub.P10, Pv0, Pv1};
QuadDice::SubPatch sub1 = {sub.patch, Pv0, Pv1, sub.P01, sub.P11};
split(sub0, ef0, depth+1);
split(sub1, ef1, depth+1);
}
else
dispatch(sub, ef);
}
void DiagSplit::split_triangle(Patch *patch)
{
TriangleDice::SubPatch sub_split;
TriangleDice::EdgeFactors ef_split;
sub_split.patch = patch;
sub_split.Pu = make_float2(1.0f, 0.0f);
sub_split.Pv = make_float2(0.0f, 1.0f);
sub_split.Pw = make_float2(0.0f, 0.0f);
ef_split.tu = T(patch, sub_split.Pv, sub_split.Pw);
ef_split.tv = T(patch, sub_split.Pw, sub_split.Pu);
ef_split.tw = T(patch, sub_split.Pu, sub_split.Pv);
split(sub_split, ef_split);
TriangleDice dice(params);
for(size_t i = 0; i < subpatches_triangle.size(); i++) {
TriangleDice::SubPatch& sub = subpatches_triangle[i];
TriangleDice::EdgeFactors& ef = edgefactors_triangle[i];
ef.tu = 4;
ef.tv = 4;
ef.tw = 4;
ef.tu = max(ef.tu, 1);
ef.tv = max(ef.tv, 1);
ef.tw = max(ef.tw, 1);
dice.dice(sub, ef);
}
subpatches_triangle.clear();
edgefactors_triangle.clear();
}
void DiagSplit::split_quad(Patch *patch)
{
QuadDice::SubPatch sub_split;
QuadDice::EdgeFactors ef_split;
sub_split.patch = patch;
sub_split.P00 = make_float2(0.0f, 0.0f);
sub_split.P10 = make_float2(1.0f, 0.0f);
sub_split.P01 = make_float2(0.0f, 1.0f);
sub_split.P11 = make_float2(1.0f, 1.0f);
ef_split.tu0 = T(patch, sub_split.P00, sub_split.P10);
ef_split.tu1 = T(patch, sub_split.P01, sub_split.P11);
ef_split.tv0 = T(patch, sub_split.P00, sub_split.P01);
ef_split.tv1 = T(patch, sub_split.P10, sub_split.P11);
split(sub_split, ef_split);
QuadDice dice(params);
for(size_t i = 0; i < subpatches_quad.size(); i++) {
QuadDice::SubPatch& sub = subpatches_quad[i];
QuadDice::EdgeFactors& ef = edgefactors_quad[i];
ef.tu0 = max(ef.tu0, 1);
ef.tu1 = max(ef.tu1, 1);
ef.tv0 = max(ef.tv0, 1);
ef.tv1 = max(ef.tv1, 1);
dice.dice(sub, ef);
}
subpatches_quad.clear();
edgefactors_quad.clear();
}
CCL_NAMESPACE_END