blender/intern/cycles/kernel/svm/svm_mix.h

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/*
* Copyright 2011, Blender Foundation.
*
* 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
CCL_NAMESPACE_BEGIN
__device float3 svm_mix_blend(float t, float3 col1, float3 col2)
{
return interp(col1, col2, t);
}
__device float3 svm_mix_add(float t, float3 col1, float3 col2)
{
return interp(col1, col1 + col2, t);
}
__device float3 svm_mix_mul(float t, float3 col1, float3 col2)
{
return interp(col1, col1 * col2, t);
}
__device float3 svm_mix_screen(float t, float3 col1, float3 col2)
{
float tm = 1.0f - t;
float3 one = make_float3(1.0f, 1.0f, 1.0f);
float3 tm3 = make_float3(tm, tm, tm);
return one - (tm3 + t*(one - col2))*(one - col1);
}
__device float3 svm_mix_overlay(float t, float3 col1, float3 col2)
{
float tm = 1.0f - t;
float3 outcol = col1;
if(outcol.x < 0.5f)
outcol.x *= tm + 2.0f*t*col2.x;
else
outcol.x = 1.0f - (tm + 2.0f*t*(1.0f - col2.x))*(1.0f - outcol.x);
if(outcol.y < 0.5f)
outcol.y *= tm + 2.0f*t*col2.y;
else
outcol.y = 1.0f - (tm + 2.0f*t*(1.0f - col2.y))*(1.0f - outcol.y);
if(outcol.z < 0.5f)
outcol.z *= tm + 2.0f*t*col2.z;
else
outcol.z = 1.0f - (tm + 2.0f*t*(1.0f - col2.z))*(1.0f - outcol.z);
return outcol;
}
__device float3 svm_mix_sub(float t, float3 col1, float3 col2)
{
return interp(col1, col1 - col2, t);
}
__device float3 svm_mix_div(float t, float3 col1, float3 col2)
{
float tm = 1.0f - t;
float3 outcol = col1;
if(col2.x != 0.0f) outcol.x = tm*outcol.x + t*outcol.x/col2.x;
if(col2.y != 0.0f) outcol.y = tm*outcol.y + t*outcol.y/col2.y;
if(col2.z != 0.0f) outcol.z = tm*outcol.z + t*outcol.z/col2.z;
return outcol;
}
__device float3 svm_mix_diff(float t, float3 col1, float3 col2)
{
return interp(col1, fabs(col1 - col2), t);
}
__device float3 svm_mix_dark(float t, float3 col1, float3 col2)
{
return min(col1, col2*t);
}
__device float3 svm_mix_light(float t, float3 col1, float3 col2)
{
return max(col1, col2*t);
}
__device float3 svm_mix_dodge(float t, float3 col1, float3 col2)
{
float3 outcol = col1;
if(outcol.x != 0.0f) {
float tmp = 1.0f - t*col2.x;
if(tmp <= 0.0f)
outcol.x = 1.0f;
else if((tmp = outcol.x/tmp) > 1.0f)
outcol.x = 1.0f;
else
outcol.x = tmp;
}
if(outcol.y != 0.0f) {
float tmp = 1.0f - t*col2.y;
if(tmp <= 0.0f)
outcol.y = 1.0f;
else if((tmp = outcol.y/tmp) > 1.0f)
outcol.y = 1.0f;
else
outcol.y = tmp;
}
if(outcol.z != 0.0f) {
float tmp = 1.0f - t*col2.z;
if(tmp <= 0.0f)
outcol.z = 1.0f;
else if((tmp = outcol.z/tmp) > 1.0f)
outcol.z = 1.0f;
else
outcol.z = tmp;
}
return outcol;
}
__device float3 svm_mix_burn(float t, float3 col1, float3 col2)
{
float tmp, tm = 1.0f - t;
float3 outcol = col1;
tmp = tm + t*col2.x;
if(tmp <= 0.0f)
outcol.x = 0.0f;
else if((tmp = (1.0f - (1.0f - outcol.x)/tmp)) < 0.0f)
outcol.x = 0.0f;
else if(tmp > 1.0f)
outcol.x = 1.0f;
else
outcol.x = tmp;
tmp = tm + t*col2.y;
if(tmp <= 0.0f)
outcol.y = 0.0f;
else if((tmp = (1.0f - (1.0f - outcol.y)/tmp)) < 0.0f)
outcol.y = 0.0f;
else if(tmp > 1.0f)
outcol.y = 1.0f;
else
outcol.y = tmp;
tmp = tm + t*col2.z;
if(tmp <= 0.0f)
outcol.z = 0.0f;
else if((tmp = (1.0f - (1.0f - outcol.z)/tmp)) < 0.0f)
outcol.z = 0.0f;
else if(tmp > 1.0f)
outcol.z = 1.0f;
else
outcol.z = tmp;
return outcol;
}
__device float3 svm_mix_hue(float t, float3 col1, float3 col2)
{
float3 outcol = col1;
float3 hsv2 = rgb_to_hsv(col2);
if(hsv2.y != 0.0f) {
float3 hsv = rgb_to_hsv(outcol);
hsv.x = hsv2.x;
float3 tmp = hsv_to_rgb(hsv);
outcol = interp(outcol, tmp, t);
}
return outcol;
}
__device float3 svm_mix_sat(float t, float3 col1, float3 col2)
{
float tm = 1.0f - t;
float3 outcol = col1;
float3 hsv = rgb_to_hsv(outcol);
if(hsv.y != 0.0f) {
float3 hsv2 = rgb_to_hsv(col2);
hsv.y = tm*hsv.y + t*hsv2.y;
outcol = hsv_to_rgb(hsv);
}
return outcol;
}
__device float3 svm_mix_val(float t, float3 col1, float3 col2)
{
float tm = 1.0f - t;
float3 hsv = rgb_to_hsv(col1);
float3 hsv2 = rgb_to_hsv(col2);
hsv.z = tm*hsv.z + t*hsv2.z;
return hsv_to_rgb(hsv);
}
__device float3 svm_mix_color(float t, float3 col1, float3 col2)
{
float3 outcol = col1;
float3 hsv2 = rgb_to_hsv(col2);
if(hsv2.y != 0.0f) {
float3 hsv = rgb_to_hsv(outcol);
hsv.x = hsv2.x;
hsv.y = hsv2.y;
float3 tmp = hsv_to_rgb(hsv);
outcol = interp(outcol, tmp, t);
}
return outcol;
}
__device float3 svm_mix_soft(float t, float3 col1, float3 col2)
{
float tm = 1.0f - t;
float3 one = make_float3(1.0f, 1.0f, 1.0f);
float3 scr = one - (one - col2)*(one - col1);
return tm*col1 + t*((one - col1)*col2*col1 + col1*scr);
}
__device float3 svm_mix_linear(float t, float3 col1, float3 col2)
{
float3 outcol = col1;
if(col2.x > 0.5f)
outcol.x = col1.x + t*(2.0f*(col2.x - 0.5f));
else
outcol.x = col1.x + t*(2.0f*(col2.x) - 1.0f);
if(col2.y > 0.5f)
outcol.y = col1.y + t*(2.0f*(col2.y - 0.5f));
else
outcol.y = col1.y + t*(2.0f*(col2.y) - 1.0f);
if(col2.z > 0.5f)
outcol.z = col1.z + t*(2.0f*(col2.z - 0.5f));
else
outcol.z = col1.z + t*(2.0f*(col2.z) - 1.0f);
return outcol;
}
__device float3 svm_mix_clamp(float3 col)
{
float3 outcol = col;
outcol.x = clamp(col.x, 0.0f, 1.0f);
outcol.y = clamp(col.y, 0.0f, 1.0f);
outcol.z = clamp(col.z, 0.0f, 1.0f);
return outcol;
}
__device float3 svm_mix(NodeMix type, float fac, float3 c1, float3 c2)
{
float t = clamp(fac, 0.0f, 1.0f);
switch(type) {
case NODE_MIX_BLEND: return svm_mix_blend(t, c1, c2);
case NODE_MIX_ADD: return svm_mix_add(t, c1, c2);
case NODE_MIX_MUL: return svm_mix_mul(t, c1, c2);
case NODE_MIX_SCREEN: return svm_mix_screen(t, c1, c2);
case NODE_MIX_OVERLAY: return svm_mix_overlay(t, c1, c2);
case NODE_MIX_SUB: return svm_mix_sub(t, c1, c2);
case NODE_MIX_DIV: return svm_mix_div(t, c1, c2);
case NODE_MIX_DIFF: return svm_mix_diff(t, c1, c2);
case NODE_MIX_DARK: return svm_mix_dark(t, c1, c2);
case NODE_MIX_LIGHT: return svm_mix_light(t, c1, c2);
case NODE_MIX_DODGE: return svm_mix_dodge(t, c1, c2);
case NODE_MIX_BURN: return svm_mix_burn(t, c1, c2);
case NODE_MIX_HUE: return svm_mix_hue(t, c1, c2);
case NODE_MIX_SAT: return svm_mix_sat(t, c1, c2);
case NODE_MIX_VAL: return svm_mix_val (t, c1, c2);
case NODE_MIX_COLOR: return svm_mix_color(t, c1, c2);
case NODE_MIX_SOFT: return svm_mix_soft(t, c1, c2);
case NODE_MIX_LINEAR: return svm_mix_linear(t, c1, c2);
case NODE_MIX_CLAMP: return svm_mix_clamp(c1);
}
return make_float3(0.0f, 0.0f, 0.0f);
}
/* Node */
__device void svm_node_mix(KernelGlobals *kg, ShaderData *sd, float *stack, uint fac_offset, uint c1_offset, uint c2_offset, int *offset)
{
/* read extra data */
uint4 node1 = read_node(kg, offset);
float fac = stack_load_float(stack, fac_offset);
float3 c1 = stack_load_float3(stack, c1_offset);
float3 c2 = stack_load_float3(stack, c2_offset);
float3 result = svm_mix((NodeMix)node1.y, fac, c1, c2);
stack_store_float3(stack, node1.z, result);
}
CCL_NAMESPACE_END