blender/intern/cycles/kernel/kernel_passes.h
Brecht Van Lommel a41648c1dc Cycles: add pass alpha threshold value to render layers.
Z, Index, normal, UV and vector passes are only affected by surfaces with alpha
transparency equal to or higher than this threshold. With value 0.0 the first
surface hit will always write to these passes, regardless of transparency. With
higher values surfaces that are mostly transparent can be skipped until an opaque
surface is encountered.
2014-02-06 15:24:15 +01:00

177 lines
6.6 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
*/
CCL_NAMESPACE_BEGIN
ccl_device_inline void kernel_write_pass_float(ccl_global float *buffer, int sample, float value)
{
ccl_global float *buf = buffer;
*buf = (sample == 0)? value: *buf + value;
}
ccl_device_inline void kernel_write_pass_float3(ccl_global float *buffer, int sample, float3 value)
{
ccl_global float3 *buf = (ccl_global float3*)buffer;
*buf = (sample == 0)? value: *buf + value;
}
ccl_device_inline void kernel_write_pass_float4(ccl_global float *buffer, int sample, float4 value)
{
ccl_global float4 *buf = (ccl_global float4*)buffer;
*buf = (sample == 0)? value: *buf + value;
}
ccl_device_inline void kernel_write_data_passes(KernelGlobals *kg, ccl_global float *buffer, PathRadiance *L,
ShaderData *sd, int sample, PathState *state, float3 throughput)
{
#ifdef __PASSES__
int path_flag = state->flag;
if(!(path_flag & PATH_RAY_CAMERA))
return;
int flag = kernel_data.film.pass_flag;
if(!(flag & PASS_ALL))
return;
if(!(path_flag & PATH_RAY_SINGLE_PASS_DONE)) {
if(!(sd->flag & SD_TRANSPARENT) ||
kernel_data.film.pass_alpha_threshold == 0.0f ||
average(shader_bsdf_alpha(kg, sd)) >= kernel_data.film.pass_alpha_threshold) {
if(sample == 0) {
if(flag & PASS_DEPTH) {
float depth = camera_distance(kg, sd->P);
kernel_write_pass_float(buffer + kernel_data.film.pass_depth, sample, depth);
}
if(flag & PASS_OBJECT_ID) {
float id = object_pass_id(kg, sd->object);
kernel_write_pass_float(buffer + kernel_data.film.pass_object_id, sample, id);
}
if(flag & PASS_MATERIAL_ID) {
float id = shader_pass_id(kg, sd);
kernel_write_pass_float(buffer + kernel_data.film.pass_material_id, sample, id);
}
}
if(flag & PASS_NORMAL) {
float3 normal = sd->N;
kernel_write_pass_float3(buffer + kernel_data.film.pass_normal, sample, normal);
}
if(flag & PASS_UV) {
float3 uv = primitive_uv(kg, sd);
kernel_write_pass_float3(buffer + kernel_data.film.pass_uv, sample, uv);
}
if(flag & PASS_MOTION) {
float4 speed = primitive_motion_vector(kg, sd);
kernel_write_pass_float4(buffer + kernel_data.film.pass_motion, sample, speed);
kernel_write_pass_float(buffer + kernel_data.film.pass_motion_weight, sample, 1.0f);
}
state->flag |= PATH_RAY_SINGLE_PASS_DONE;
}
}
if(flag & (PASS_DIFFUSE_INDIRECT|PASS_DIFFUSE_COLOR|PASS_DIFFUSE_DIRECT))
L->color_diffuse += shader_bsdf_diffuse(kg, sd)*throughput;
if(flag & (PASS_GLOSSY_INDIRECT|PASS_GLOSSY_COLOR|PASS_GLOSSY_DIRECT))
L->color_glossy += shader_bsdf_glossy(kg, sd)*throughput;
if(flag & (PASS_TRANSMISSION_INDIRECT|PASS_TRANSMISSION_COLOR|PASS_TRANSMISSION_DIRECT))
L->color_transmission += shader_bsdf_transmission(kg, sd)*throughput;
if(flag & (PASS_SUBSURFACE_INDIRECT|PASS_SUBSURFACE_COLOR|PASS_SUBSURFACE_DIRECT))
L->color_subsurface += shader_bsdf_subsurface(kg, sd)*throughput;
if(flag & PASS_MIST) {
/* bring depth into 0..1 range */
float mist_start = kernel_data.film.mist_start;
float mist_inv_depth = kernel_data.film.mist_inv_depth;
float depth = camera_distance(kg, sd->P);
float mist = clamp((depth - mist_start)*mist_inv_depth, 0.0f, 1.0f);
/* falloff */
float mist_falloff = kernel_data.film.mist_falloff;
if(mist_falloff == 1.0f)
;
else if(mist_falloff == 2.0f)
mist = mist*mist;
else if(mist_falloff == 0.5f)
mist = sqrtf(mist);
else
mist = powf(mist, mist_falloff);
/* modulate by transparency */
float3 alpha = shader_bsdf_alpha(kg, sd);
L->mist += (1.0f - mist)*average(throughput*alpha);
}
#endif
}
ccl_device_inline void kernel_write_light_passes(KernelGlobals *kg, ccl_global float *buffer, PathRadiance *L, int sample)
{
#ifdef __PASSES__
int flag = kernel_data.film.pass_flag;
if(!kernel_data.film.use_light_pass)
return;
if(flag & PASS_DIFFUSE_INDIRECT)
kernel_write_pass_float3(buffer + kernel_data.film.pass_diffuse_indirect, sample, L->indirect_diffuse);
if(flag & PASS_GLOSSY_INDIRECT)
kernel_write_pass_float3(buffer + kernel_data.film.pass_glossy_indirect, sample, L->indirect_glossy);
if(flag & PASS_TRANSMISSION_INDIRECT)
kernel_write_pass_float3(buffer + kernel_data.film.pass_transmission_indirect, sample, L->indirect_transmission);
if(flag & PASS_SUBSURFACE_INDIRECT)
kernel_write_pass_float3(buffer + kernel_data.film.pass_subsurface_indirect, sample, L->indirect_subsurface);
if(flag & PASS_DIFFUSE_DIRECT)
kernel_write_pass_float3(buffer + kernel_data.film.pass_diffuse_direct, sample, L->direct_diffuse);
if(flag & PASS_GLOSSY_DIRECT)
kernel_write_pass_float3(buffer + kernel_data.film.pass_glossy_direct, sample, L->direct_glossy);
if(flag & PASS_TRANSMISSION_DIRECT)
kernel_write_pass_float3(buffer + kernel_data.film.pass_transmission_direct, sample, L->direct_transmission);
if(flag & PASS_SUBSURFACE_DIRECT)
kernel_write_pass_float3(buffer + kernel_data.film.pass_subsurface_direct, sample, L->direct_subsurface);
if(flag & PASS_EMISSION)
kernel_write_pass_float3(buffer + kernel_data.film.pass_emission, sample, L->emission);
if(flag & PASS_BACKGROUND)
kernel_write_pass_float3(buffer + kernel_data.film.pass_background, sample, L->background);
if(flag & PASS_AO)
kernel_write_pass_float3(buffer + kernel_data.film.pass_ao, sample, L->ao);
if(flag & PASS_DIFFUSE_COLOR)
kernel_write_pass_float3(buffer + kernel_data.film.pass_diffuse_color, sample, L->color_diffuse);
if(flag & PASS_GLOSSY_COLOR)
kernel_write_pass_float3(buffer + kernel_data.film.pass_glossy_color, sample, L->color_glossy);
if(flag & PASS_TRANSMISSION_COLOR)
kernel_write_pass_float3(buffer + kernel_data.film.pass_transmission_color, sample, L->color_transmission);
if(flag & PASS_SUBSURFACE_COLOR)
kernel_write_pass_float3(buffer + kernel_data.film.pass_subsurface_color, sample, L->color_subsurface);
if(flag & PASS_SHADOW) {
float4 shadow = L->shadow;
shadow.w = kernel_data.film.pass_shadow_scale;
kernel_write_pass_float4(buffer + kernel_data.film.pass_shadow, sample, shadow);
}
if(flag & PASS_MIST)
kernel_write_pass_float(buffer + kernel_data.film.pass_mist, sample, 1.0f - L->mist);
#endif
}
CCL_NAMESPACE_END