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test2/source/blender/render/intern/source/shadeinput.c

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/**
* $Id:
*
* ***** BEGIN GPL LICENSE BLOCK *****
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*
* The Original Code is Copyright (C) 2006 Blender Foundation
* All rights reserved.
*
* Contributors: Hos, Robert Wenzlaff.
*
* ***** END GPL LICENSE BLOCK *****
*/
#include <stdio.h>
#include <math.h>
#include <string.h>
#include "BLI_math.h"
#include "BLI_blenlib.h"
#include "DNA_curve_types.h"
#include "DNA_group_types.h"
#include "DNA_lamp_types.h"
#include "DNA_meshdata_types.h"
#include "DNA_material_types.h"
#include "BKE_colortools.h"
#include "BKE_utildefines.h"
#include "BKE_node.h"
/* local include */
#include "raycounter.h"
#include "renderpipeline.h"
#include "render_types.h"
#include "renderdatabase.h"
#include "rendercore.h"
#include "shadbuf.h"
#include "shading.h"
#include "strand.h"
#include "texture.h"
#include "volumetric.h"
#include "zbuf.h"
/* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ */
/* defined in pipeline.c, is hardcopy of active dynamic allocated Render */
/* only to be used here in this file, it's for speed */
extern struct Render R;
/* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ */
#define VECADDISFAC(v1,v3,fac) {*(v1)+= *(v3)*(fac); *(v1+1)+= *(v3+1)*(fac); *(v1+2)+= *(v3+2)*(fac);}
/* Shade Sample order:
- shade_samples_fill_with_ps()
- for each sample
- shade_input_set_triangle() <- if prev sample-face is same, use shade_input_copy_triangle()
- if vlr
- shade_input_set_viewco() <- not for ray or bake
- shade_input_set_uv() <- not for ray or bake
- shade_input_set_normals()
- shade_samples()
- if AO
- shade_samples_do_AO()
- if shading happens
- for each sample
- shade_input_set_shade_texco()
- shade_samples_do_shade()
- OSA: distribute sample result with filter masking
*/
/* initialise material variables in shadeinput,
* doing inverse gamma correction where applicable */
void shade_input_init_material(ShadeInput *shi)
{
/* note, keep this synced with render_types.h */
memcpy(&shi->r, &shi->mat->r, 23*sizeof(float));
shi->har= shi->mat->har;
}
/* also used as callback for nodes */
/* delivers a fully filled in ShadeResult, for all passes */
void shade_material_loop(ShadeInput *shi, ShadeResult *shr)
{
shade_lamp_loop(shi, shr); /* clears shr */
if(shi->translucency!=0.0f) {
ShadeResult shr_t;
float fac= shi->translucency;
shade_input_init_material(shi);
VECCOPY(shi->vn, shi->vno);
VECMUL(shi->vn, -1.0f);
VECMUL(shi->facenor, -1.0f);
shi->depth++; /* hack to get real shadow now */
shade_lamp_loop(shi, &shr_t);
shi->depth--;
/* a couple of passes */
VECADDISFAC(shr->combined, shr_t.combined, fac);
if(shi->passflag & SCE_PASS_SPEC)
VECADDISFAC(shr->spec, shr_t.spec, fac);
if(shi->passflag & SCE_PASS_DIFFUSE)
VECADDISFAC(shr->diff, shr_t.diff, fac);
if(shi->passflag & SCE_PASS_SHADOW)
VECADDISFAC(shr->shad, shr_t.shad, fac);
VECMUL(shi->vn, -1.0f);
VECMUL(shi->facenor, -1.0f);
}
/* depth >= 1 when ray-shading */
if(shi->depth==0) {
if(R.r.mode & R_RAYTRACE) {
if(shi->ray_mirror!=0.0f || ((shi->mat->mode & MA_TRANSP) && (shi->mat->mode & MA_RAYTRANSP) && shr->alpha!=1.0f)) {
/* ray trace works on combined, but gives pass info */
ray_trace(shi, shr);
}
}
/* disable adding of sky for raytransp */
if((shi->mat->mode & MA_TRANSP) && (shi->mat->mode & MA_RAYTRANSP))
if((shi->layflag & SCE_LAY_SKY) && (R.r.alphamode==R_ADDSKY))
shr->alpha= 1.0f;
}
if(R.r.mode & R_RAYTRACE) {
if (R.render_volumes_inside.first)
shade_volume_inside(shi, shr);
}
}
/* do a shade, finish up some passes, apply mist */
void shade_input_do_shade(ShadeInput *shi, ShadeResult *shr)
{
float alpha;
/* ------ main shading loop -------- */
#ifdef RE_RAYCOUNTER
memset(&shi->raycounter, 0, sizeof(shi->raycounter));
#endif
if(shi->mat->nodetree && shi->mat->use_nodes) {
ntreeShaderExecTree(shi->mat->nodetree, shi, shr);
}
else {
/* copy all relevant material vars, note, keep this synced with render_types.h */
shade_input_init_material(shi);
if (shi->mat->material_type == MA_TYPE_VOLUME) {
if(R.r.mode & R_RAYTRACE)
shade_volume_outside(shi, shr);
} else { /* MA_TYPE_SURFACE, MA_TYPE_WIRE */
shade_material_loop(shi, shr);
}
}
/* copy additional passes */
if(shi->passflag & (SCE_PASS_VECTOR|SCE_PASS_NORMAL|SCE_PASS_RADIO)) {
QUATCOPY(shr->winspeed, shi->winspeed);
VECCOPY(shr->nor, shi->vn);
}
/* MIST */
if((shi->passflag & SCE_PASS_MIST) || ((R.wrld.mode & WO_MIST) && (shi->mat->mode & MA_NOMIST)==0)) {
if(R.r.mode & R_ORTHO)
shr->mist= mistfactor(-shi->co[2], shi->co);
else
shr->mist= mistfactor(len_v3(shi->co), shi->co);
}
else shr->mist= 0.0f;
if((R.wrld.mode & WO_MIST) && (shi->mat->mode & MA_NOMIST)==0 ) {
alpha= shr->mist;
}
else alpha= 1.0f;
/* add mist and premul color */
if(shr->alpha!=1.0f || alpha!=1.0f) {
float fac= alpha*(shr->alpha);
shr->combined[3]= fac;
if (shi->mat->material_type!= MA_TYPE_VOLUME)
mul_v3_fl(shr->combined, fac);
}
else
shr->combined[3]= 1.0f;
/* add z */
shr->z= -shi->co[2];
/* RAYHITS */
/*
if(1 || shi->passflag & SCE_PASS_RAYHITS)
{
shr->rayhits[0] = (float)shi->raycounter.faces.test;
shr->rayhits[1] = (float)shi->raycounter.bb.hit;
shr->rayhits[2] = 0.0;
shr->rayhits[3] = 1.0;
}
*/
RE_RC_MERGE(&re_rc_counter[shi->thread], &shi->raycounter);
}
/* **************************************************************************** */
/* ShadeInput */
/* **************************************************************************** */
void vlr_set_uv_indices(VlakRen *vlr, int *i1, int *i2, int *i3)
{
/* to prevent storing new tfaces or vcols, we check a split runtime */
/* 4---3 4---3 */
/* |\ 1| or |1 /| */
/* |0\ | |/ 0| */
/* 1---2 1---2 0 = orig face, 1 = new face */
/* Update vert nums to point to correct verts of original face */
if(vlr->flag & R_DIVIDE_24) {
if(vlr->flag & R_FACE_SPLIT) {
(*i1)++; (*i2)++; (*i3)++;
}
else {
(*i3)++;
}
}
else if(vlr->flag & R_FACE_SPLIT) {
(*i2)++; (*i3)++;
}
}
/* copy data from face to ShadeInput, general case */
/* indices 0 1 2 3 only */
void shade_input_set_triangle_i(ShadeInput *shi, ObjectInstanceRen *obi, VlakRen *vlr, short i1, short i2, short i3)
{
VertRen **vpp= &vlr->v1;
shi->vlr= vlr;
shi->obi= obi;
shi->obr= obi->obr;
shi->v1= vpp[i1];
shi->v2= vpp[i2];
shi->v3= vpp[i3];
shi->i1= i1;
shi->i2= i2;
shi->i3= i3;
/* note, shi->mat is set in node shaders */
shi->mat= shi->mat_override?shi->mat_override:vlr->mat;
shi->osatex= (shi->mat->texco & TEXCO_OSA);
shi->mode= shi->mat->mode_l; /* or-ed result for all nodes */
/* facenormal copy, can get flipped */
shi->flippednor= RE_vlakren_get_normal(&R, obi, vlr, shi->facenor);
/* copy of original pre-flipped normal, for geometry->front/back node output */
VECCOPY(shi->orignor, shi->facenor);
if(shi->flippednor)
VECMUL(shi->orignor, -1.0f);
/* calculate vertexnormals */
if(vlr->flag & R_SMOOTH) {
VECCOPY(shi->n1, shi->v1->n);
VECCOPY(shi->n2, shi->v2->n);
VECCOPY(shi->n3, shi->v3->n);
if(obi->flag & R_TRANSFORMED) {
mul_m3_v3(obi->nmat, shi->n1);
mul_m3_v3(obi->nmat, shi->n2);
mul_m3_v3(obi->nmat, shi->n3);
}
if(!(vlr->flag & (R_NOPUNOFLIP|R_TANGENT))) {
if(INPR(shi->facenor, shi->n1) < 0.0f) {
shi->n1[0]= -shi->n1[0];
shi->n1[1]= -shi->n1[1];
shi->n1[2]= -shi->n1[2];
}
if(INPR(shi->facenor, shi->n2) < 0.0f) {
shi->n2[0]= -shi->n2[0];
shi->n2[1]= -shi->n2[1];
shi->n2[2]= -shi->n2[2];
}
if(INPR(shi->facenor, shi->n3) < 0.0f) {
shi->n3[0]= -shi->n3[0];
shi->n3[1]= -shi->n3[1];
shi->n3[2]= -shi->n3[2];
}
}
}
}
/* note, facenr declared volatile due to over-eager -O2 optimizations
* on cygwin (particularly -frerun-cse-after-loop)
*/
/* copy data from face to ShadeInput, scanline case */
void shade_input_set_triangle(ShadeInput *shi, volatile int obi, volatile int facenr, int normal_flip)
{
if(facenr>0) {
shi->obi= &R.objectinstance[obi];
shi->obr= shi->obi->obr;
shi->facenr= (facenr-1) & RE_QUAD_MASK;
if( shi->facenr < shi->obr->totvlak ) {
VlakRen *vlr= RE_findOrAddVlak(shi->obr, shi->facenr);
if(facenr & RE_QUAD_OFFS)
shade_input_set_triangle_i(shi, shi->obi, vlr, 0, 2, 3);
else
shade_input_set_triangle_i(shi, shi->obi, vlr, 0, 1, 2);
}
else
shi->vlr= NULL; /* general signal we got sky */
}
else
shi->vlr= NULL; /* general signal we got sky */
}
/* full osa case: copy static info */
void shade_input_copy_triangle(ShadeInput *shi, ShadeInput *from)
{
/* not so nice, but works... warning is in RE_shader_ext.h */
memcpy(shi, from, sizeof(struct ShadeInputCopy));
}
/* copy data from strand to shadeinput */
void shade_input_set_strand(ShadeInput *shi, StrandRen *strand, StrandPoint *spoint)
{
/* note, shi->mat is set in node shaders */
shi->mat= shi->mat_override? shi->mat_override: strand->buffer->ma;
shi->osatex= (shi->mat->texco & TEXCO_OSA);
shi->mode= shi->mat->mode_l; /* or-ed result for all nodes */
/* shade_input_set_viewco equivalent */
VECCOPY(shi->co, spoint->co);
VECCOPY(shi->view, shi->co);
normalize_v3(shi->view);
shi->xs= (int)spoint->x;
shi->ys= (int)spoint->y;
if(shi->osatex || (R.r.mode & R_SHADOW)) {
VECCOPY(shi->dxco, spoint->dtco);
VECCOPY(shi->dyco, spoint->dsco);
}
/* dxview, dyview, not supported */
/* facenormal, simply viewco flipped */
VECCOPY(shi->facenor, spoint->nor);
VECCOPY(shi->orignor, shi->facenor);
/* shade_input_set_normals equivalent */
if(shi->mat->mode & MA_TANGENT_STR) {
VECCOPY(shi->vn, spoint->tan)
}
else {
float cross[3];
cross_v3_v3v3(cross, spoint->co, spoint->tan);
cross_v3_v3v3(shi->vn, cross, spoint->tan);
normalize_v3(shi->vn);
if(INPR(shi->vn, shi->view) < 0.0f)
negate_v3(shi->vn);
}
VECCOPY(shi->vno, shi->vn);
}
void shade_input_set_strand_texco(ShadeInput *shi, StrandRen *strand, StrandVert *svert, StrandPoint *spoint)
{
StrandBuffer *strandbuf= strand->buffer;
ObjectRen *obr= strandbuf->obr;
StrandVert *sv;
int mode= shi->mode; /* or-ed result for all nodes */
short texco= shi->mat->texco;
if((shi->mat->texco & TEXCO_REFL)) {
/* shi->dxview, shi->dyview, not supported */
}
if(shi->osatex && (texco & (TEXCO_NORM|TEXCO_REFL))) {
/* not supported */
}
if(mode & (MA_TANGENT_V|MA_NORMAP_TANG)) {
VECCOPY(shi->tang, spoint->tan);
VECCOPY(shi->nmaptang, spoint->tan);
}
if(mode & MA_STR_SURFDIFF) {
float *surfnor= RE_strandren_get_surfnor(obr, strand, 0);
if(surfnor)
VECCOPY(shi->surfnor, surfnor)
else
VECCOPY(shi->surfnor, shi->vn)
if(shi->mat->strand_surfnor > 0.0f) {
shi->surfdist= 0.0f;
for(sv=strand->vert; sv!=svert; sv++)
shi->surfdist+=len_v3v3(sv->co, (sv+1)->co);
shi->surfdist += spoint->t*len_v3v3(sv->co, (sv+1)->co);
}
}
if(R.r.mode & R_SPEED) {
float *speed;
speed= RE_strandren_get_winspeed(shi->obi, strand, 0);
if(speed)
QUATCOPY(shi->winspeed, speed)
else
shi->winspeed[0]= shi->winspeed[1]= shi->winspeed[2]= shi->winspeed[3]= 0.0f;
}
/* shade_input_set_shade_texco equivalent */
if(texco & NEED_UV) {
if(texco & TEXCO_ORCO) {
VECCOPY(shi->lo, strand->orco);
/* no shi->osatex, orco derivatives are zero */
}
if(texco & TEXCO_GLOB) {
VECCOPY(shi->gl, shi->co);
mul_m4_v3(R.viewinv, shi->gl);
if(shi->osatex) {
VECCOPY(shi->dxgl, shi->dxco);
mul_m3_v3(R.imat, shi->dxco);
VECCOPY(shi->dygl, shi->dyco);
mul_m3_v3(R.imat, shi->dyco);
}
}
if(texco & TEXCO_STRAND) {
shi->strandco= spoint->strandco;
if(shi->osatex) {
shi->dxstrand= spoint->dtstrandco;
shi->dystrand= 0.0f;
}
}
if((texco & TEXCO_UV) || (mode & (MA_VERTEXCOL|MA_VERTEXCOLP|MA_FACETEXTURE))) {
MCol *mcol;
float *uv;
char *name;
int i;
shi->totuv= 0;
shi->totcol= 0;
shi->actuv= obr->actmtface;
shi->actcol= obr->actmcol;
if(mode & (MA_VERTEXCOL|MA_VERTEXCOLP)) {
for (i=0; (mcol=RE_strandren_get_mcol(obr, strand, i, &name, 0)); i++) {
ShadeInputCol *scol= &shi->col[i];
char *cp= (char*)mcol;
shi->totcol++;
scol->name= name;
scol->col[0]= cp[3]/255.0f;
scol->col[1]= cp[2]/255.0f;
scol->col[2]= cp[1]/255.0f;
}
if(shi->totcol) {
shi->vcol[0]= shi->col[shi->actcol].col[0];
shi->vcol[1]= shi->col[shi->actcol].col[1];
shi->vcol[2]= shi->col[shi->actcol].col[2];
}
else {
shi->vcol[0]= 0.0f;
shi->vcol[1]= 0.0f;
shi->vcol[2]= 0.0f;
}
}
for (i=0; (uv=RE_strandren_get_uv(obr, strand, i, &name, 0)); i++) {
ShadeInputUV *suv= &shi->uv[i];
shi->totuv++;
suv->name= name;
if(strandbuf->overrideuv == i) {
suv->uv[0]= -1.0f;
suv->uv[1]= spoint->strandco;
suv->uv[2]= 0.0f;
}
else {
suv->uv[0]= -1.0f + 2.0f*uv[0];
suv->uv[1]= -1.0f + 2.0f*uv[1];
suv->uv[2]= 0.0f; /* texture.c assumes there are 3 coords */
}
if(shi->osatex) {
suv->dxuv[0]= 0.0f;
suv->dxuv[1]= 0.0f;
suv->dyuv[0]= 0.0f;
suv->dyuv[1]= 0.0f;
}
if((mode & MA_FACETEXTURE) && i==obr->actmtface) {
if((mode & (MA_VERTEXCOL|MA_VERTEXCOLP))==0) {
shi->vcol[0]= 1.0f;
shi->vcol[1]= 1.0f;
shi->vcol[2]= 1.0f;
}
}
}
if(shi->totuv == 0) {
ShadeInputUV *suv= &shi->uv[0];
suv->uv[0]= 0.0f;
suv->uv[1]= spoint->strandco;
suv->uv[2]= 0.0f; /* texture.c assumes there are 3 coords */
if(mode & MA_FACETEXTURE) {
/* no tface? set at 1.0f */
shi->vcol[0]= 1.0f;
shi->vcol[1]= 1.0f;
shi->vcol[2]= 1.0f;
}
}
}
if(texco & TEXCO_NORM) {
shi->orn[0]= -shi->vn[0];
shi->orn[1]= -shi->vn[1];
shi->orn[2]= -shi->vn[2];
}
if(texco & TEXCO_REFL) {
/* mirror reflection color textures (and envmap) */
calc_R_ref(shi); /* wrong location for normal maps! XXXXXXXXXXXXXX */
}
if(texco & TEXCO_STRESS) {
/* not supported */
}
if(texco & TEXCO_TANGENT) {
if((mode & MA_TANGENT_V)==0) {
/* just prevent surprises */
shi->tang[0]= shi->tang[1]= shi->tang[2]= 0.0f;
shi->nmaptang[0]= shi->nmaptang[1]= shi->nmaptang[2]= 0.0f;
}
}
}
/* this only avalailable for scanline renders */
if(shi->depth==0) {
if(texco & TEXCO_WINDOW) {
shi->winco[0]= -1.0f + 2.0f*spoint->x/(float)R.winx;
shi->winco[1]= -1.0f + 2.0f*spoint->y/(float)R.winy;
shi->winco[2]= 0.0f;
/* not supported */
if(shi->osatex) {
shi->dxwin[0]= 0.0f;
shi->dywin[1]= 0.0f;
shi->dxwin[0]= 0.0f;
shi->dywin[1]= 0.0f;
}
}
if(texco & TEXCO_STICKY) {
/* not supported */
}
}
if (R.r.color_mgt_flag & R_COLOR_MANAGEMENT) {
if(mode & (MA_VERTEXCOL|MA_VERTEXCOLP|MA_FACETEXTURE)) {
srgb_to_linearrgb_v3_v3(shi->vcol, shi->vcol);
}
}
}
/* from scanline pixel coordinates to 3d coordinates, requires set_triangle */
void shade_input_calc_viewco(ShadeInput *shi, float x, float y, float z, float *view, float *dxyview, float *co, float *dxco, float *dyco)
{
/* returns not normalized, so is in viewplane coords */
calc_view_vector(view, x, y);
if(shi->mat->material_type == MA_TYPE_WIRE) {
/* wire cannot use normal for calculating shi->co, so
* we reconstruct the coordinate less accurate */
if(R.r.mode & R_ORTHO)
calc_renderco_ortho(co, x, y, z);
else
calc_renderco_zbuf(co, view, z);
}
else {
/* for non-wire, intersect with the triangle to get the exact coord */
float fac, dface, v1[3];
VECCOPY(v1, shi->v1->co);
if(shi->obi->flag & R_TRANSFORMED)
mul_m4_v3(shi->obi->mat, v1);
dface= v1[0]*shi->facenor[0]+v1[1]*shi->facenor[1]+v1[2]*shi->facenor[2];
/* ortho viewplane cannot intersect using view vector originating in (0,0,0) */
if(R.r.mode & R_ORTHO) {
/* x and y 3d coordinate can be derived from pixel coord and winmat */
float fx= 2.0f/(R.winx*R.winmat[0][0]);
float fy= 2.0f/(R.winy*R.winmat[1][1]);
co[0]= (x - 0.5f*R.winx)*fx - R.winmat[3][0]/R.winmat[0][0];
co[1]= (y - 0.5f*R.winy)*fy - R.winmat[3][1]/R.winmat[1][1];
/* using a*x + b*y + c*z = d equation, (a b c) is normal */
if(shi->facenor[2]!=0.0f)
co[2]= (dface - shi->facenor[0]*co[0] - shi->facenor[1]*co[1])/shi->facenor[2];
else
co[2]= 0.0f;
if(dxco && dyco) {
dxco[0]= fx;
dxco[1]= 0.0f;
if(shi->facenor[2]!=0.0f)
dxco[2]= (shi->facenor[0]*fx)/shi->facenor[2];
else
dxco[2]= 0.0f;
dyco[0]= 0.0f;
dyco[1]= fy;
if(shi->facenor[2]!=0.0f)
dyco[2]= (shi->facenor[1]*fy)/shi->facenor[2];
else
dyco[2]= 0.0f;
if(dxyview) {
if(co[2]!=0.0f) fac= 1.0f/co[2]; else fac= 0.0f;
dxyview[0]= -R.viewdx*fac;
dxyview[1]= -R.viewdy*fac;
}
}
}
else {
float div;
div= shi->facenor[0]*view[0] + shi->facenor[1]*view[1] + shi->facenor[2]*view[2];
if (div!=0.0f) fac= dface/div;
else fac= 0.0f;
co[0]= fac*view[0];
co[1]= fac*view[1];
co[2]= fac*view[2];
/* pixel dx/dy for render coord */
if(dxco && dyco) {
float u= dface/(div - R.viewdx*shi->facenor[0]);
float v= dface/(div - R.viewdy*shi->facenor[1]);
dxco[0]= co[0]- (view[0]-R.viewdx)*u;
dxco[1]= co[1]- (view[1])*u;
dxco[2]= co[2]- (view[2])*u;
dyco[0]= co[0]- (view[0])*v;
dyco[1]= co[1]- (view[1]-R.viewdy)*v;
dyco[2]= co[2]- (view[2])*v;
if(dxyview) {
if(fac!=0.0f) fac= 1.0f/fac;
dxyview[0]= -R.viewdx*fac;
dxyview[1]= -R.viewdy*fac;
}
}
}
}
/* set camera coords - for scanline, it's always 0.0,0.0,0.0 (render is in camera space)
* however for raytrace it can be different - the position of the last intersection */
shi->camera_co[0] = shi->camera_co[1] = shi->camera_co[2] = 0.0f;
/* cannot normalize earlier, code above needs it at viewplane level */
normalize_v3(view);
}
/* from scanline pixel coordinates to 3d coordinates, requires set_triangle */
void shade_input_set_viewco(ShadeInput *shi, float x, float y, float xs, float ys, float z)
{
float *dxyview= NULL, *dxco= NULL, *dyco= NULL;
/* currently in use for dithering (soft shadow), node preview, irregular shad */
shi->xs= (int)xs;
shi->ys= (int)ys;
/* original scanline coordinate without jitter */
shi->scanco[0]= x;
shi->scanco[1]= y;
shi->scanco[2]= z;
/* check if we need derivatives */
if(shi->osatex || (R.r.mode & R_SHADOW)) {
dxco= shi->dxco;
dyco= shi->dyco;
if((shi->mat->texco & TEXCO_REFL))
dxyview= &shi->dxview;
}
shade_input_calc_viewco(shi, xs, ys, z, shi->view, dxyview, shi->co, dxco, dyco);
}
/* calculate U and V, for scanline (silly render face u and v are in range -1 to 0) */
void shade_input_set_uv(ShadeInput *shi)
{
VlakRen *vlr= shi->vlr;
if((vlr->flag & R_SMOOTH) || (shi->mat->texco & NEED_UV) || (shi->passflag & SCE_PASS_UV)) {
float v1[3], v2[3], v3[3];
VECCOPY(v1, shi->v1->co);
VECCOPY(v2, shi->v2->co);
VECCOPY(v3, shi->v3->co);
if(shi->obi->flag & R_TRANSFORMED) {
mul_m4_v3(shi->obi->mat, v1);
mul_m4_v3(shi->obi->mat, v2);
mul_m4_v3(shi->obi->mat, v3);
}
/* exception case for wire render of edge */
if(vlr->v2==vlr->v3) {
float lend, lenc;
lend= len_v3v3(v2, v1);
lenc= len_v3v3(shi->co, v1);
if(lend==0.0f) {
shi->u=shi->v= 0.0f;
}
else {
shi->u= - (1.0f - lenc/lend);
shi->v= 0.0f;
}
if(shi->osatex) {
shi->dx_u= 0.0f;
shi->dx_v= 0.0f;
shi->dy_u= 0.0f;
shi->dy_v= 0.0f;
}
}
else {
/* most of this could become re-used for faces */
float detsh, t00, t10, t01, t11, xn, yn, zn;
int axis1, axis2;
/* find most stable axis to project */
xn= fabs(shi->facenor[0]);
yn= fabs(shi->facenor[1]);
zn= fabs(shi->facenor[2]);
if(zn>=xn && zn>=yn) { axis1= 0; axis2= 1; }
else if(yn>=xn && yn>=zn) { axis1= 0; axis2= 2; }
else { axis1= 1; axis2= 2; }
/* compute u,v and derivatives */
t00= v3[axis1]-v1[axis1]; t01= v3[axis2]-v1[axis2];
t10= v3[axis1]-v2[axis1]; t11= v3[axis2]-v2[axis2];
detsh= 1.0f/(t00*t11-t10*t01);
t00*= detsh; t01*=detsh;
t10*=detsh; t11*=detsh;
shi->u= (shi->co[axis1]-v3[axis1])*t11-(shi->co[axis2]-v3[axis2])*t10;
shi->v= (shi->co[axis2]-v3[axis2])*t00-(shi->co[axis1]-v3[axis1])*t01;
if(shi->osatex) {
shi->dx_u= shi->dxco[axis1]*t11- shi->dxco[axis2]*t10;
shi->dx_v= shi->dxco[axis2]*t00- shi->dxco[axis1]*t01;
shi->dy_u= shi->dyco[axis1]*t11- shi->dyco[axis2]*t10;
shi->dy_v= shi->dyco[axis2]*t00- shi->dyco[axis1]*t01;
}
/* u and v are in range -1 to 0, we allow a little bit extra but not too much, screws up speedvectors */
CLAMP(shi->u, -2.0f, 1.0f);
CLAMP(shi->v, -2.0f, 1.0f);
}
}
}
void shade_input_set_normals(ShadeInput *shi)
{
float u= shi->u, v= shi->v;
float l= 1.0f+u+v;
/* calculate vertexnormals */
if(shi->vlr->flag & R_SMOOTH) {
float *n1= shi->n1, *n2= shi->n2, *n3= shi->n3;
shi->vn[0]= l*n3[0]-u*n1[0]-v*n2[0];
shi->vn[1]= l*n3[1]-u*n1[1]-v*n2[1];
shi->vn[2]= l*n3[2]-u*n1[2]-v*n2[2];
normalize_v3(shi->vn);
}
else
VECCOPY(shi->vn, shi->facenor);
/* used in nodes */
VECCOPY(shi->vno, shi->vn);
}
/* use by raytrace, sss, bake to flip into the right direction */
void shade_input_flip_normals(ShadeInput *shi)
{
shi->facenor[0]= -shi->facenor[0];
shi->facenor[1]= -shi->facenor[1];
shi->facenor[2]= -shi->facenor[2];
shi->vn[0]= -shi->vn[0];
shi->vn[1]= -shi->vn[1];
shi->vn[2]= -shi->vn[2];
shi->vno[0]= -shi->vno[0];
shi->vno[1]= -shi->vno[1];
shi->vno[2]= -shi->vno[2];
shi->flippednor= !shi->flippednor;
}
void shade_input_set_shade_texco(ShadeInput *shi)
{
ObjectInstanceRen *obi= shi->obi;
ObjectRen *obr= shi->obr;
VertRen *v1= shi->v1, *v2= shi->v2, *v3= shi->v3;
float u= shi->u, v= shi->v;
float l= 1.0f+u+v, dl;
int mode= shi->mode; /* or-ed result for all nodes */
short texco= shi->mat->texco;
/* calculate dxno */
if(shi->vlr->flag & R_SMOOTH) {
if(shi->osatex && (texco & (TEXCO_NORM|TEXCO_REFL)) ) {
float *n1= shi->n1, *n2= shi->n2, *n3= shi->n3;
dl= shi->dx_u+shi->dx_v;
shi->dxno[0]= dl*n3[0]-shi->dx_u*n1[0]-shi->dx_v*n2[0];
shi->dxno[1]= dl*n3[1]-shi->dx_u*n1[1]-shi->dx_v*n2[1];
shi->dxno[2]= dl*n3[2]-shi->dx_u*n1[2]-shi->dx_v*n2[2];
dl= shi->dy_u+shi->dy_v;
shi->dyno[0]= dl*n3[0]-shi->dy_u*n1[0]-shi->dy_v*n2[0];
shi->dyno[1]= dl*n3[1]-shi->dy_u*n1[1]-shi->dy_v*n2[1];
shi->dyno[2]= dl*n3[2]-shi->dy_u*n1[2]-shi->dy_v*n2[2];
}
}
/* calc tangents */
if (mode & (MA_TANGENT_V|MA_NORMAP_TANG) || R.flag & R_NEED_TANGENT) {
float *tangent, *s1, *s2, *s3;
float tl, tu, tv;
if(shi->vlr->flag & R_SMOOTH) {
tl= l;
tu= u;
tv= v;
}
else {
/* qdn: flat faces have tangents too,
could pick either one, using average here */
tl= 1.0f/3.0f;
tu= -1.0f/3.0f;
tv= -1.0f/3.0f;
}
shi->tang[0]= shi->tang[1]= shi->tang[2]= 0.0f;
shi->nmaptang[0]= shi->nmaptang[1]= shi->nmaptang[2]= 0.0f;
if(mode & MA_TANGENT_V) {
s1 = RE_vertren_get_tangent(obr, v1, 0);
s2 = RE_vertren_get_tangent(obr, v2, 0);
s3 = RE_vertren_get_tangent(obr, v3, 0);
if(s1 && s2 && s3) {
shi->tang[0]= (tl*s3[0] - tu*s1[0] - tv*s2[0]);
shi->tang[1]= (tl*s3[1] - tu*s1[1] - tv*s2[1]);
shi->tang[2]= (tl*s3[2] - tu*s1[2] - tv*s2[2]);
if(obi->flag & R_TRANSFORMED)
mul_m3_v3(obi->nmat, shi->tang);
normalize_v3(shi->tang);
VECCOPY(shi->nmaptang, shi->tang);
}
}
if(mode & MA_NORMAP_TANG || R.flag & R_NEED_TANGENT) {
tangent= RE_vlakren_get_nmap_tangent(obr, shi->vlr, 0);
if(tangent) {
int j1= shi->i1, j2= shi->i2, j3= shi->i3;
vlr_set_uv_indices(shi->vlr, &j1, &j2, &j3);
s1= &tangent[j1*3];
s2= &tangent[j2*3];
s3= &tangent[j3*3];
shi->nmaptang[0]= (tl*s3[0] - tu*s1[0] - tv*s2[0]);
shi->nmaptang[1]= (tl*s3[1] - tu*s1[1] - tv*s2[1]);
shi->nmaptang[2]= (tl*s3[2] - tu*s1[2] - tv*s2[2]);
if(obi->flag & R_TRANSFORMED)
mul_m3_v3(obi->nmat, shi->nmaptang);
normalize_v3(shi->nmaptang);
}
}
}
if(mode & MA_STR_SURFDIFF) {
float *surfnor= RE_vlakren_get_surfnor(obr, shi->vlr, 0);
if(surfnor) {
VECCOPY(shi->surfnor, surfnor)
if(obi->flag & R_TRANSFORMED)
mul_m3_v3(obi->nmat, shi->surfnor);
}
else
VECCOPY(shi->surfnor, shi->vn)
shi->surfdist= 0.0f;
}
if(R.r.mode & R_SPEED) {
float *s1, *s2, *s3;
s1= RE_vertren_get_winspeed(obi, v1, 0);
s2= RE_vertren_get_winspeed(obi, v2, 0);
s3= RE_vertren_get_winspeed(obi, v3, 0);
if(s1 && s2 && s3) {
shi->winspeed[0]= (l*s3[0] - u*s1[0] - v*s2[0]);
shi->winspeed[1]= (l*s3[1] - u*s1[1] - v*s2[1]);
shi->winspeed[2]= (l*s3[2] - u*s1[2] - v*s2[2]);
shi->winspeed[3]= (l*s3[3] - u*s1[3] - v*s2[3]);
}
else {
shi->winspeed[0]= shi->winspeed[1]= shi->winspeed[2]= shi->winspeed[3]= 0.0f;
}
}
/* pass option forces UV calc */
if(shi->passflag & SCE_PASS_UV)
texco |= (NEED_UV|TEXCO_UV);
/* texture coordinates. shi->dxuv shi->dyuv have been set */
if(texco & NEED_UV) {
if(texco & TEXCO_ORCO) {
if(v1->orco) {
float *o1, *o2, *o3;
o1= v1->orco;
o2= v2->orco;
o3= v3->orco;
shi->lo[0]= l*o3[0]-u*o1[0]-v*o2[0];
shi->lo[1]= l*o3[1]-u*o1[1]-v*o2[1];
shi->lo[2]= l*o3[2]-u*o1[2]-v*o2[2];
if(shi->osatex) {
dl= shi->dx_u+shi->dx_v;
shi->dxlo[0]= dl*o3[0]-shi->dx_u*o1[0]-shi->dx_v*o2[0];
shi->dxlo[1]= dl*o3[1]-shi->dx_u*o1[1]-shi->dx_v*o2[1];
shi->dxlo[2]= dl*o3[2]-shi->dx_u*o1[2]-shi->dx_v*o2[2];
dl= shi->dy_u+shi->dy_v;
shi->dylo[0]= dl*o3[0]-shi->dy_u*o1[0]-shi->dy_v*o2[0];
shi->dylo[1]= dl*o3[1]-shi->dy_u*o1[1]-shi->dy_v*o2[1];
shi->dylo[2]= dl*o3[2]-shi->dy_u*o1[2]-shi->dy_v*o2[2];
}
}
VECCOPY(shi->duplilo, obi->dupliorco);
}
if(texco & TEXCO_GLOB) {
VECCOPY(shi->gl, shi->co);
mul_m4_v3(R.viewinv, shi->gl);
if(shi->osatex) {
VECCOPY(shi->dxgl, shi->dxco);
// TXF: bug was here, but probably should be in convertblender.c, R.imat only valid if there is a world
//mul_m3_v3(R.imat, shi->dxco);
mul_mat3_m4_v3(R.viewinv, shi->dxco);
VECCOPY(shi->dygl, shi->dyco);
//mul_m3_v3(R.imat, shi->dyco);
mul_mat3_m4_v3(R.viewinv, shi->dyco);
}
}
if(texco & TEXCO_STRAND) {
shi->strandco= (l*v3->accum - u*v1->accum - v*v2->accum);
if(shi->osatex) {
dl= shi->dx_u+shi->dx_v;
shi->dxstrand= dl*v3->accum-shi->dx_u*v1->accum-shi->dx_v*v2->accum;
dl= shi->dy_u+shi->dy_v;
shi->dystrand= dl*v3->accum-shi->dy_u*v1->accum-shi->dy_v*v2->accum;
}
}
if((texco & TEXCO_UV) || (mode & (MA_VERTEXCOL|MA_VERTEXCOLP|MA_FACETEXTURE))) {
VlakRen *vlr= shi->vlr;
MTFace *tface;
MCol *mcol;
char *name;
int i, j1=shi->i1, j2=shi->i2, j3=shi->i3;
/* uv and vcols are not copied on split, so set them according vlr divide flag */
vlr_set_uv_indices(vlr, &j1, &j2, &j3);
shi->totuv= 0;
shi->totcol= 0;
shi->actuv= obr->actmtface;
shi->actcol= obr->actmcol;
if(mode & (MA_VERTEXCOL|MA_VERTEXCOLP)) {
for (i=0; (mcol=RE_vlakren_get_mcol(obr, vlr, i, &name, 0)); i++) {
ShadeInputCol *scol= &shi->col[i];
char *cp1, *cp2, *cp3;
shi->totcol++;
scol->name= name;
cp1= (char *)(mcol+j1);
cp2= (char *)(mcol+j2);
cp3= (char *)(mcol+j3);
scol->col[0]= (l*((float)cp3[3]) - u*((float)cp1[3]) - v*((float)cp2[3]))/255.0f;
scol->col[1]= (l*((float)cp3[2]) - u*((float)cp1[2]) - v*((float)cp2[2]))/255.0f;
scol->col[2]= (l*((float)cp3[1]) - u*((float)cp1[1]) - v*((float)cp2[1]))/255.0f;
}
if(shi->totcol) {
shi->vcol[0]= shi->col[shi->actcol].col[0];
shi->vcol[1]= shi->col[shi->actcol].col[1];
shi->vcol[2]= shi->col[shi->actcol].col[2];
shi->vcol[3]= 1.0f;
}
else {
shi->vcol[0]= 0.0f;
shi->vcol[1]= 0.0f;
shi->vcol[2]= 0.0f;
shi->vcol[3]= 1.0f;
}
}
for (i=0; (tface=RE_vlakren_get_tface(obr, vlr, i, &name, 0)); i++) {
ShadeInputUV *suv= &shi->uv[i];
float *uv1, *uv2, *uv3;
shi->totuv++;
suv->name= name;
uv1= tface->uv[j1];
uv2= tface->uv[j2];
uv3= tface->uv[j3];
suv->uv[0]= -1.0f + 2.0f*(l*uv3[0]-u*uv1[0]-v*uv2[0]);
suv->uv[1]= -1.0f + 2.0f*(l*uv3[1]-u*uv1[1]-v*uv2[1]);
suv->uv[2]= 0.0f; /* texture.c assumes there are 3 coords */
if(shi->osatex) {
float duv[2];
dl= shi->dx_u+shi->dx_v;
duv[0]= shi->dx_u;
duv[1]= shi->dx_v;
suv->dxuv[0]= 2.0f*(dl*uv3[0]-duv[0]*uv1[0]-duv[1]*uv2[0]);
suv->dxuv[1]= 2.0f*(dl*uv3[1]-duv[0]*uv1[1]-duv[1]*uv2[1]);
dl= shi->dy_u+shi->dy_v;
duv[0]= shi->dy_u;
duv[1]= shi->dy_v;
suv->dyuv[0]= 2.0f*(dl*uv3[0]-duv[0]*uv1[0]-duv[1]*uv2[0]);
suv->dyuv[1]= 2.0f*(dl*uv3[1]-duv[0]*uv1[1]-duv[1]*uv2[1]);
}
if((mode & MA_FACETEXTURE) && i==obr->actmtface) {
if((mode & (MA_VERTEXCOL|MA_VERTEXCOLP))==0) {
shi->vcol[0]= 1.0f;
shi->vcol[1]= 1.0f;
shi->vcol[2]= 1.0f;
shi->vcol[3]= 1.0f;
}
if(tface && tface->tpage)
render_realtime_texture(shi, tface->tpage);
}
}
shi->dupliuv[0]= -1.0f + 2.0f*obi->dupliuv[0];
shi->dupliuv[1]= -1.0f + 2.0f*obi->dupliuv[1];
shi->dupliuv[2]= 0.0f;
if(shi->totuv == 0) {
ShadeInputUV *suv= &shi->uv[0];
suv->uv[0]= 2.0f*(u+.5f);
suv->uv[1]= 2.0f*(v+.5f);
suv->uv[2]= 0.0f; /* texture.c assumes there are 3 coords */
if(mode & MA_FACETEXTURE) {
/* no tface? set at 1.0f */
shi->vcol[0]= 1.0f;
shi->vcol[1]= 1.0f;
shi->vcol[2]= 1.0f;
shi->vcol[3]= 1.0f;
}
}
}
if(texco & TEXCO_NORM) {
shi->orn[0]= -shi->vn[0];
shi->orn[1]= -shi->vn[1];
shi->orn[2]= -shi->vn[2];
}
if(texco & TEXCO_REFL) {
/* mirror reflection color textures (and envmap) */
calc_R_ref(shi); /* wrong location for normal maps! XXXXXXXXXXXXXX */
}
if(texco & TEXCO_STRESS) {
float *s1, *s2, *s3;
s1= RE_vertren_get_stress(obr, v1, 0);
s2= RE_vertren_get_stress(obr, v2, 0);
s3= RE_vertren_get_stress(obr, v3, 0);
if(s1 && s2 && s3) {
shi->stress= l*s3[0] - u*s1[0] - v*s2[0];
if(shi->stress<1.0f) shi->stress-= 1.0f;
else shi->stress= (shi->stress-1.0f)/shi->stress;
}
else shi->stress= 0.0f;
}
if(texco & TEXCO_TANGENT) {
if((mode & MA_TANGENT_V)==0) {
/* just prevent surprises */
shi->tang[0]= shi->tang[1]= shi->tang[2]= 0.0f;
shi->nmaptang[0]= shi->nmaptang[1]= shi->nmaptang[2]= 0.0f;
}
}
}
/* this only avalailable for scanline renders */
if(shi->depth==0) {
float x= shi->xs;
float y= shi->ys;
if(texco & TEXCO_WINDOW) {
shi->winco[0]= -1.0f + 2.0f*x/(float)R.winx;
shi->winco[1]= -1.0f + 2.0f*y/(float)R.winy;
shi->winco[2]= 0.0f;
if(shi->osatex) {
shi->dxwin[0]= 2.0f/(float)R.winx;
shi->dywin[1]= 2.0f/(float)R.winy;
shi->dxwin[1]= shi->dxwin[2]= 0.0f;
shi->dywin[0]= shi->dywin[2]= 0.0f;
}
}
if(texco & TEXCO_STICKY) {
float *s1, *s2, *s3;
s1= RE_vertren_get_sticky(obr, v1, 0);
s2= RE_vertren_get_sticky(obr, v2, 0);
s3= RE_vertren_get_sticky(obr, v3, 0);
if(s1 && s2 && s3) {
float obwinmat[4][4], winmat[4][4], ho1[4], ho2[4], ho3[4];
float Zmulx, Zmuly;
float hox, hoy, l, dl, u, v;
float s00, s01, s10, s11, detsh;
/* old globals, localized now */
Zmulx= ((float)R.winx)/2.0f; Zmuly= ((float)R.winy)/2.0f;
zbuf_make_winmat(&R, winmat);
if(shi->obi->flag & R_TRANSFORMED)
mul_m4_m4m4(obwinmat, obi->mat, winmat);
else
copy_m4_m4(obwinmat, winmat);
zbuf_render_project(obwinmat, v1->co, ho1);
zbuf_render_project(obwinmat, v2->co, ho2);
zbuf_render_project(obwinmat, v3->co, ho3);
s00= ho3[0]/ho3[3] - ho1[0]/ho1[3];
s01= ho3[1]/ho3[3] - ho1[1]/ho1[3];
s10= ho3[0]/ho3[3] - ho2[0]/ho2[3];
s11= ho3[1]/ho3[3] - ho2[1]/ho2[3];
detsh= s00*s11-s10*s01;
s00/= detsh; s01/=detsh;
s10/=detsh; s11/=detsh;
/* recalc u and v again */
hox= x/Zmulx -1.0f;
hoy= y/Zmuly -1.0f;
u= (hox - ho3[0]/ho3[3])*s11 - (hoy - ho3[1]/ho3[3])*s10;
v= (hoy - ho3[1]/ho3[3])*s00 - (hox - ho3[0]/ho3[3])*s01;
l= 1.0f+u+v;
shi->sticky[0]= l*s3[0]-u*s1[0]-v*s2[0];
shi->sticky[1]= l*s3[1]-u*s1[1]-v*s2[1];
shi->sticky[2]= 0.0f;
if(shi->osatex) {
float dxuv[2], dyuv[2];
dxuv[0]= s11/Zmulx;
dxuv[1]= - s01/Zmulx;
dyuv[0]= - s10/Zmuly;
dyuv[1]= s00/Zmuly;
dl= dxuv[0] + dxuv[1];
shi->dxsticky[0]= dl*s3[0] - dxuv[0]*s1[0] - dxuv[1]*s2[0];
shi->dxsticky[1]= dl*s3[1] - dxuv[0]*s1[1] - dxuv[1]*s2[1];
dl= dyuv[0] + dyuv[1];
shi->dysticky[0]= dl*s3[0] - dyuv[0]*s1[0] - dyuv[1]*s2[0];
shi->dysticky[1]= dl*s3[1] - dyuv[0]*s1[1] - dyuv[1]*s2[1];
}
}
}
} /* else {
Note! For raytracing winco is not set, important because thus means all shader input's need to have their variables set to zero else in-initialized values are used
*/
if (R.r.color_mgt_flag & R_COLOR_MANAGEMENT) {
if(mode & (MA_VERTEXCOL|MA_VERTEXCOLP|MA_FACETEXTURE)) {
srgb_to_linearrgb_v3_v3(shi->vcol, shi->vcol);
}
}
}
/* ****************** ShadeSample ************************************** */
/* initialize per part, not per pixel! */
void shade_input_initialize(ShadeInput *shi, RenderPart *pa, RenderLayer *rl, int sample)
{
memset(shi, 0, sizeof(ShadeInput));
shi->sample= sample;
shi->thread= pa->thread;
shi->do_preview= (R.r.scemode & R_MATNODE_PREVIEW) != 0;
shi->lay= rl->lay;
shi->layflag= rl->layflag;
shi->passflag= rl->passflag;
shi->combinedflag= ~rl->pass_xor;
shi->mat_override= rl->mat_override;
shi->light_override= rl->light_override;
// shi->rl= rl;
/* note shi.depth==0 means first hit, not raytracing */
}
/* initialize per part, not per pixel! */
void shade_sample_initialize(ShadeSample *ssamp, RenderPart *pa, RenderLayer *rl)
{
int a, tot;
tot= R.osa==0?1:R.osa;
for(a=0; a<tot; a++) {
shade_input_initialize(&ssamp->shi[a], pa, rl, a);
memset(&ssamp->shr[a], 0, sizeof(ShadeResult));
}
get_sample_layers(pa, rl, ssamp->rlpp);
}
/* Do AO or (future) GI */
void shade_samples_do_AO(ShadeSample *ssamp)
{
ShadeInput *shi;
int sample;
if(!(R.r.mode & R_SHADOW))
return;
if(!(R.r.mode & R_RAYTRACE) && !(R.wrld.ao_gather_method == WO_AOGATHER_APPROX))
return;
if(R.wrld.mode & (WO_AMB_OCC|WO_ENV_LIGHT|WO_INDIRECT_LIGHT)) {
shi= &ssamp->shi[0];
if(((shi->passflag & SCE_PASS_COMBINED) && (shi->combinedflag & (SCE_PASS_AO|SCE_PASS_ENVIRONMENT|SCE_PASS_INDIRECT)))
|| (shi->passflag & (SCE_PASS_AO|SCE_PASS_ENVIRONMENT|SCE_PASS_INDIRECT)))
for(sample=0, shi= ssamp->shi; sample<ssamp->tot; shi++, sample++)
if(!(shi->mode & MA_SHLESS))
ambient_occlusion(shi); /* stores in shi->ao[] */
}
}
void shade_samples_fill_with_ps(ShadeSample *ssamp, PixStr *ps, int x, int y)
{
ShadeInput *shi;
float xs, ys;
ssamp->tot= 0;
for(shi= ssamp->shi; ps; ps= ps->next) {
shade_input_set_triangle(shi, ps->obi, ps->facenr, 1);
if(shi->vlr) { /* NULL happens for env material or for 'all z' */
unsigned short curmask= ps->mask;
/* full osa is only set for OSA renders */
if(shi->vlr->flag & R_FULL_OSA) {
short shi_cp= 0, samp;
for(samp=0; samp<R.osa; samp++) {
if(curmask & (1<<samp)) {
/* zbuffer has this inverse corrected, ensures xs,ys are inside pixel */
xs= (float)x + R.jit[samp][0] + 0.5f;
ys= (float)y + R.jit[samp][1] + 0.5f;
if(shi_cp)
shade_input_copy_triangle(shi, shi-1);
shi->mask= (1<<samp);
// shi->rl= ssamp->rlpp[samp];
shi->samplenr= R.shadowsamplenr[shi->thread]++; /* this counter is not being reset per pixel */
shade_input_set_viewco(shi, x, y, xs, ys, (float)ps->z);
shade_input_set_uv(shi);
shade_input_set_normals(shi);
shi_cp= 1;
shi++;
}
}
}
else {
if(R.osa) {
short b= R.samples->centmask[curmask];
xs= (float)x + R.samples->centLut[b & 15] + 0.5f;
ys= (float)y + R.samples->centLut[b>>4] + 0.5f;
}
else {
xs= (float)x + 0.5f;
ys= (float)y + 0.5f;
}
shi->mask= curmask;
shi->samplenr= R.shadowsamplenr[shi->thread]++;
shade_input_set_viewco(shi, x, y, xs, ys, (float)ps->z);
shade_input_set_uv(shi);
shade_input_set_normals(shi);
shi++;
}
/* total sample amount, shi->sample is static set in initialize */
if(shi!=ssamp->shi)
ssamp->tot= (shi-1)->sample + 1;
}
}
}
/* shades samples, returns true if anything happened */
int shade_samples(ShadeSample *ssamp, PixStr *ps, int x, int y)
{
shade_samples_fill_with_ps(ssamp, ps, x, y);
if(ssamp->tot) {
ShadeInput *shi= ssamp->shi;
ShadeResult *shr= ssamp->shr;
int samp;
/* if shadow or AO? */
shade_samples_do_AO(ssamp);
/* if shade (all shadepinputs have same passflag) */
if(ssamp->shi[0].passflag & ~(SCE_PASS_Z|SCE_PASS_INDEXOB)) {
for(samp=0; samp<ssamp->tot; samp++, shi++, shr++) {
shade_input_set_shade_texco(shi);
shade_input_do_shade(shi, shr);
}
}
else if(shi->passflag & SCE_PASS_Z) {
for(samp=0; samp<ssamp->tot; samp++, shi++, shr++)
shr->z= -shi->co[2];
}
return 1;
}
return 0;
}
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