blender/intern/cycles/kernel/kernel_jitter.h
Brecht Van Lommel c18712e868 Cycles: change __device and similar qualifiers to ccl_device in kernel code.
This to avoids build conflicts with libc++ on FreeBSD, these __ prefixed values
are reserved for compilers. I apologize to anyone who has patches or branches
and has to go through the pain of merging this change, it may be easiest to do
these same replacements in your code and then apply/merge the patch.

Ref T37477.
2013-11-18 08:48:15 +01:00

185 lines
3.6 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
/* "Correlated Multi-Jittered Sampling"
* Andrew Kensler, Pixar Technical Memo 13-01, 2013 */
/* todo: find good value, suggested 64 gives pattern on cornell box ceiling */
#define CMJ_RANDOM_OFFSET_LIMIT 4096
ccl_device_inline bool cmj_is_pow2(int i)
{
return (i & (i - 1)) == 0;
}
ccl_device_inline int cmj_fast_mod_pow2(int a, int b)
{
return (a & (b - 1));
}
/* a must be > 0 and b must be > 1 */
ccl_device_inline int cmj_fast_div_pow2(int a, int b)
{
#if defined(__KERNEL_SSE2__) && !defined(_MSC_VER)
return a >> __builtin_ctz(b);
#else
return a/b;
#endif
}
ccl_device_inline uint cmj_w_mask(uint w)
{
#if defined(__KERNEL_SSE2__) && !defined(_MSC_VER)
return ((1 << (32 - __builtin_clz(w))) - 1);
#else
w |= w >> 1;
w |= w >> 2;
w |= w >> 4;
w |= w >> 8;
w |= w >> 16;
return w;
#endif
}
ccl_device_inline uint cmj_permute(uint i, uint l, uint p)
{
uint w = l - 1;
if((l & w) == 0) {
/* l is a power of two (fast) */
i ^= p;
i *= 0xe170893d;
i ^= p >> 16;
i ^= (i & w) >> 4;
i ^= p >> 8;
i *= 0x0929eb3f;
i ^= p >> 23;
i ^= (i & w) >> 1;
i *= 1 | p >> 27;
i *= 0x6935fa69;
i ^= (i & w) >> 11;
i *= 0x74dcb303;
i ^= (i & w) >> 2;
i *= 0x9e501cc3;
i ^= (i & w) >> 2;
i *= 0xc860a3df;
i &= w;
i ^= i >> 5;
return (i + p) & w;
}
else {
/* l is not a power of two (slow) */
w = cmj_w_mask(w);
do {
i ^= p;
i *= 0xe170893d;
i ^= p >> 16;
i ^= (i & w) >> 4;
i ^= p >> 8;
i *= 0x0929eb3f;
i ^= p >> 23;
i ^= (i & w) >> 1;
i *= 1 | p >> 27;
i *= 0x6935fa69;
i ^= (i & w) >> 11;
i *= 0x74dcb303;
i ^= (i & w) >> 2;
i *= 0x9e501cc3;
i ^= (i & w) >> 2;
i *= 0xc860a3df;
i &= w;
i ^= i >> 5;
} while (i >= l);
return (i + p) % l;
}
}
ccl_device_inline uint cmj_hash(uint i, uint p)
{
i ^= p;
i ^= i >> 17;
i ^= i >> 10;
i *= 0xb36534e5;
i ^= i >> 12;
i ^= i >> 21;
i *= 0x93fc4795;
i ^= 0xdf6e307f;
i ^= i >> 17;
i *= 1 | p >> 18;
return i;
}
ccl_device_inline float cmj_randfloat(uint i, uint p)
{
return cmj_hash(i, p) * (1.0f / 4294967808.0f);
}
#ifdef __CMJ__
ccl_device float cmj_sample_1D(int s, int N, int p)
{
kernel_assert(s < N);
uint x = cmj_permute(s, N, p * 0x68bc21eb);
float jx = cmj_randfloat(s, p * 0x967a889b);
float invN = 1.0f/N;
return (x + jx)*invN;
}
ccl_device void cmj_sample_2D(int s, int N, int p, float *fx, float *fy)
{
kernel_assert(s < N);
int m = float_to_int(sqrtf(N));
int n = (N + m - 1)/m;
float invN = 1.0f/N;
float invm = 1.0f/m;
float invn = 1.0f/n;
s = cmj_permute(s, N, p * 0x51633e2d);
int sdivm, smodm;
if(cmj_is_pow2(m)) {
sdivm = cmj_fast_div_pow2(s, m);
smodm = cmj_fast_mod_pow2(s, m);
}
else {
sdivm = float_to_int(s * invm);
smodm = s - sdivm*m;
}
uint sx = cmj_permute(smodm, m, p * 0x68bc21eb);
uint sy = cmj_permute(sdivm, n, p * 0x02e5be93);
float jx = cmj_randfloat(s, p * 0x967a889b);
float jy = cmj_randfloat(s, p * 0x368cc8b7);
*fx = (sx + (sy + jx)*invn)*invm;
*fy = (s + jy)*invN;
}
#endif
CCL_NAMESPACE_END