diff options
| -rw-r--r-- | source/blender/blenlib/BLI_voxel.h | 6 | ||||
| -rw-r--r-- | source/blender/blenlib/intern/voxel.c | 82 | ||||
| -rw-r--r-- | source/blender/render/intern/source/volume_precache.c | 65 |
3 files changed, 106 insertions, 47 deletions
diff --git a/source/blender/blenlib/BLI_voxel.h b/source/blender/blenlib/BLI_voxel.h index 7b92ac05d29..815d319b6db 100644 --- a/source/blender/blenlib/BLI_voxel.h +++ b/source/blender/blenlib/BLI_voxel.h @@ -33,7 +33,11 @@ */ /** find the index number of a voxel, given x/y/z integer coords and resolution vector */ -#define BLI_VOXEL_INDEX(x, y, z, res) ((z) * (res)[1] * (res)[0] + (y) * (res)[0] + (x)) + +#define BLI_VOXEL_INDEX(x, y, z, res) \ + ((int64_t)(x) + \ + (int64_t)(y) * (int64_t)(res)[0] + \ + (int64_t)(z) * (int64_t)(res)[0] * (int64_t)(res)[1]) /* all input coordinates must be in bounding box 0.0 - 1.0 */ float BLI_voxel_sample_nearest(float *data, const int res[3], const float co[3]); diff --git a/source/blender/blenlib/intern/voxel.c b/source/blender/blenlib/intern/voxel.c index 5d58f9e9231..093333769d6 100644 --- a/source/blender/blenlib/intern/voxel.c +++ b/source/blender/blenlib/intern/voxel.c @@ -29,10 +29,10 @@ * \ingroup bli */ - -#include "BLI_voxel.h" #include "BLI_utildefines.h" +#include "BLI_voxel.h" +#include "BLI_strict_flags.h" BLI_INLINE float D(float *data, const int res[3], int x, int y, int z) @@ -49,9 +49,9 @@ float BLI_voxel_sample_nearest(float *data, const int res[3], const float co[3]) { int xi, yi, zi; - xi = co[0] * res[0]; - yi = co[1] * res[1]; - zi = co[2] * res[2]; + xi = (int)(co[0] * (float)res[0]); + yi = (int)(co[1] * (float)res[1]); + zi = (int)(co[2] * (float)res[2]); return D(data, res, xi, yi, zi); } @@ -68,7 +68,7 @@ BLI_INLINE int FLOORI(float x) * * this causes the test (x + 2) < 0 with int x == 2147483647 to return false (x being an integer, * x + 2 should wrap around to -2147483647 so the test < 0 should return true, which it doesn't) */ -BLI_INLINE int _clamp(int a, int b, int c) +BLI_INLINE int64_t _clamp(int a, int b, int c) { return (a < b) ? b : ((a > c) ? c : a); } @@ -77,15 +77,24 @@ float BLI_voxel_sample_trilinear(float *data, const int res[3], const float co[3 { if (data) { - const float xf = co[0] * res[0] - 0.5f; - const float yf = co[1] * res[1] - 0.5f; - const float zf = co[2] * res[2] - 0.5f; + const float xf = co[0] * (float)res[0] - 0.5f; + const float yf = co[1] * (float)res[1] - 0.5f; + const float zf = co[2] * (float)res[2] - 0.5f; const int x = FLOORI(xf), y = FLOORI(yf), z = FLOORI(zf); - const int xc[2] = {_clamp(x, 0, res[0] - 1), _clamp(x + 1, 0, res[0] - 1)}; - const int yc[2] = {res[0] * _clamp(y, 0, res[1] - 1), res[0] * _clamp(y + 1, 0, res[1] - 1)}; - const int zc[2] = {res[0] * res[1] * _clamp(z, 0, res[2] - 1), res[0] * res[1] * _clamp(z + 1, 0, res[2] - 1)}; + const int64_t xc[2] = { + _clamp(x, 0, res[0] - 1), + _clamp(x + 1, 0, res[0] - 1), + }; + const int64_t yc[2] = { + _clamp(y, 0, res[1] - 1) * res[0], + _clamp(y + 1, 0, res[1] - 1) * res[0], + }; + const int64_t zc[2] = { + _clamp(z, 0, res[2] - 1) * res[0] * res[1], + _clamp(z + 1, 0, res[2] - 1) * res[0] * res[1], + }; const float dx = xf - (float)x; const float dy = yf - (float)y; @@ -103,18 +112,31 @@ float BLI_voxel_sample_trilinear(float *data, const int res[3], const float co[3 } return 0.f; } - float BLI_voxel_sample_triquadratic(float *data, const int res[3], const float co[3]) { if (data) { - const float xf = co[0] * res[0], yf = co[1] * res[1], zf = co[2] * res[2]; + const float xf = co[0] * (float)res[0]; + const float yf = co[1] * (float)res[1]; + const float zf = co[2] * (float)res[2]; const int x = FLOORI(xf), y = FLOORI(yf), z = FLOORI(zf); - const int xc[3] = {_clamp(x - 1, 0, res[0] - 1), _clamp(x, 0, res[0] - 1), _clamp(x + 1, 0, res[0] - 1)}; - const int yc[3] = {res[0] * _clamp(y - 1, 0, res[1] - 1), res[0] * _clamp(y, 0, res[1] - 1), res[0] * _clamp(y + 1, 0, res[1] - 1)}; - const int zc[3] = {res[0] * res[1] * _clamp(z - 1, 0, res[2] - 1), res[0] * res[1] * _clamp(z, 0, res[2] - 1), res[0] * res[1] * _clamp(z + 1, 0, res[2] - 1)}; + const int64_t xc[3] = { + _clamp(x - 1, 0, res[0] - 1), + _clamp(x, 0, res[0] - 1), + _clamp(x + 1, 0, res[0] - 1), + }; + const int64_t yc[3] = { + _clamp(y - 1, 0, res[1] - 1) * res[0], + _clamp(y, 0, res[1] - 1) * res[0], + _clamp(y + 1, 0, res[1] - 1) * res[0], + }; + const int64_t zc[3] = { + _clamp(z - 1, 0, res[2] - 1) * res[0] * res[1], + _clamp(z, 0, res[2] - 1) * res[0] * res[1], + _clamp(z + 1, 0, res[2] - 1) * res[0] * res[1], + }; const float dx = xf - (float)x, dy = yf - (float)y, dz = zf - (float)z; const float u[3] = {dx * (0.5f * dx - 1.f) + 0.5f, dx * (1.0f - dx) + 0.5f, 0.5f * dx * dx}; @@ -139,13 +161,29 @@ float BLI_voxel_sample_tricubic(float *data, const int res[3], const float co[3] { if (data) { - const float xf = co[0] * res[0] - 0.5f, yf = co[1] * res[1] - 0.5f, zf = co[2] * res[2] - 0.5f; + const float xf = co[0] * (float)res[0] - 0.5f; + const float yf = co[1] * (float)res[1] - 0.5f; + const float zf = co[2] * (float)res[2] - 0.5f; const int x = FLOORI(xf), y = FLOORI(yf), z = FLOORI(zf); - const int xc[4] = {_clamp(x - 1, 0, res[0] - 1), _clamp(x, 0, res[0] - 1), _clamp(x + 1, 0, res[0] - 1), _clamp(x + 2, 0, res[0] - 1)}; - const int yc[4] = {res[0] * _clamp(y - 1, 0, res[1] - 1), res[0] * _clamp(y, 0, res[1] - 1), res[0] * _clamp(y + 1, 0, res[1] - 1), res[0] * _clamp(y + 2, 0, res[1] - 1)}; - const int zc[4] = {res[0] * res[1] * _clamp(z - 1, 0, res[2] - 1), res[0] * res[1] * _clamp(z, 0, res[2] - 1), res[0] * res[1] * _clamp(z + 1, 0, res[2] - 1), res[0] * res[1] * _clamp(z + 2, 0, res[2] - 1)}; - + const int64_t xc[4] = { + _clamp(x - 1, 0, res[0] - 1), + _clamp(x, 0, res[0] - 1), + _clamp(x + 1, 0, res[0] - 1), + _clamp(x + 2, 0, res[0] - 1), + }; + const int64_t yc[4] = { + _clamp(y - 1, 0, res[1] - 1) * res[0], + _clamp(y, 0, res[1] - 1) * res[0], + _clamp(y + 1, 0, res[1] - 1) * res[0], + _clamp(y + 2, 0, res[1] - 1) * res[0], + }; + const int64_t zc[4] = { + _clamp(z - 1, 0, res[2] - 1) * res[0] * res[1], + _clamp(z, 0, res[2] - 1) * res[0] * res[1], + _clamp(z + 1, 0, res[2] - 1) * res[0] * res[1], + _clamp(z + 2, 0, res[2] - 1) * res[0] * res[1], + }; const float dx = xf - (float)x, dy = yf - (float)y, dz = zf - (float)z; float u[4], v[4], w[4]; diff --git a/source/blender/render/intern/source/volume_precache.c b/source/blender/render/intern/source/volume_precache.c index 78ede01d6c1..6f09e9c5f53 100644 --- a/source/blender/render/intern/source/volume_precache.c +++ b/source/blender/render/intern/source/volume_precache.c @@ -181,7 +181,7 @@ static float get_avg_surrounds(float *cache, int *res, int xx, int yy, int zz) for (x=-1; x <= 1; x++) { x_ = xx+x; if (x_ >= 0 && x_ <= res[0]-1) { - const int i = BLI_VOXEL_INDEX(x_, y_, z_, res); + const int64_t i = BLI_VOXEL_INDEX(x_, y_, z_, res); if (cache[i] > 0.0f) { tot += cache[i]; @@ -212,7 +212,7 @@ static void lightcache_filter(VolumePrecache *vp) for (y=0; y < vp->res[1]; y++) { for (x=0; x < vp->res[0]; x++) { /* trigger for outside mesh */ - const int i = BLI_VOXEL_INDEX(x, y, z, vp->res); + const int64_t i = BLI_VOXEL_INDEX(x, y, z, vp->res); if (vp->data_r[i] < -0.f) vp->data_r[i] = get_avg_surrounds(vp->data_r, vp->res, x, y, z); @@ -244,7 +244,7 @@ static void lightcache_filter2(VolumePrecache *vp) for (y=0; y < vp->res[1]; y++) { for (x=0; x < vp->res[0]; x++) { /* trigger for outside mesh */ - const int i = BLI_VOXEL_INDEX(x, y, z, vp->res); + const int64_t i = BLI_VOXEL_INDEX(x, y, z, vp->res); if (vp->data_r[i] < -0.f) new_r[i] = get_avg_surrounds(vp->data_r, vp->res, x, y, z); if (vp->data_g[i] < -0.f) @@ -265,22 +265,30 @@ static void lightcache_filter2(VolumePrecache *vp) } #endif -BLI_INLINE int ms_I(int x, int y, int z, int *n) /* has a pad of 1 voxel surrounding the core for boundary simulation */ +/* has a pad of 1 voxel surrounding the core for boundary simulation */ +BLI_INLINE int64_t ms_I(int x, int y, int z, const int *n) { /* different ordering to light cache */ - return x*(n[1]+2)*(n[2]+2) + y*(n[2]+2) + z; + return ((int64_t)x * (int64_t)(n[1] + 2) * (int64_t)(n[2] + 2) + + (int64_t)y * (int64_t)(n[2] + 2) + + (int64_t)z); } -BLI_INLINE int v_I_pad(int x, int y, int z, int *n) /* has a pad of 1 voxel surrounding the core for boundary simulation */ +/* has a pad of 1 voxel surrounding the core for boundary simulation */ +BLI_INLINE int64_t v_I_pad(int x, int y, int z, const int *n) { /* same ordering to light cache, with padding */ - return z*(n[1]+2)*(n[0]+2) + y*(n[0]+2) + x; + return ((int64_t)z * (int64_t)(n[1] + 2) * (int64_t)(n[0] + 2) + + (int64_t)y * (int64_t)(n[0] + 2) + + (int64_t)x); } -BLI_INLINE int lc_to_ms_I(int x, int y, int z, int *n) +BLI_INLINE int64_t lc_to_ms_I(int x, int y, int z, const int *n) { /* converting light cache index to multiple scattering index */ - return (x-1)*(n[1]*n[2]) + (y-1)*(n[2]) + z-1; + return ((int64_t)(x - 1) * ((int64_t)n[1] * (int64_t)n[2]) + + (int64_t)(y - 1) * ((int64_t)n[2]) + + (int64_t)(z - 1)); } /* *** multiple scattering approximation *** */ @@ -295,7 +303,7 @@ static float total_ss_energy(Render *re, int do_test_break, VolumePrecache *vp) for (z=0; z < res[2]; z++) { for (y=0; y < res[1]; y++) { for (x=0; x < res[0]; x++) { - const int i = BLI_VOXEL_INDEX(x, y, z, res); + const int64_t i = BLI_VOXEL_INDEX(x, y, z, res); if (vp->data_r[i] > 0.f) energy += vp->data_r[i]; if (vp->data_g[i] > 0.f) energy += vp->data_g[i]; @@ -309,7 +317,7 @@ static float total_ss_energy(Render *re, int do_test_break, VolumePrecache *vp) return energy; } -static float total_ms_energy(Render *re, int do_test_break, float *sr, float *sg, float *sb, int *res) +static float total_ms_energy(Render *re, int do_test_break, float *sr, float *sg, float *sb, const int res[3]) { int x, y, z; float energy=0.f; @@ -317,7 +325,7 @@ static float total_ms_energy(Render *re, int do_test_break, float *sr, float *sg for (z=1;z<=res[2];z++) { for (y=1;y<=res[1];y++) { for (x=1;x<=res[0];x++) { - const int i = ms_I(x, y, z, res); + const int64_t i = ms_I(x, y, z, res); if (sr[i] > 0.f) energy += sr[i]; if (sg[i] > 0.f) energy += sg[i]; @@ -331,20 +339,28 @@ static float total_ms_energy(Render *re, int do_test_break, float *sr, float *sg return energy; } -static void ms_diffuse(Render *re, int do_test_break, float *x0, float *x, float diff, int *n) //n is the unpadded resolution +/** + * \param n: the unpadded resolution + */ +static void ms_diffuse(Render *re, int do_test_break, const float *x0, float *x, float diff, const int n[3]) { int i, j, k, l; const float dt = VOL_MS_TIMESTEP; - size_t size = n[0]*n[1]*n[2]; - const float a = dt*diff*size; + int64_t size = (int64_t)n[0] * (int64_t)n[1] * (int64_t)n[2]; + const float a = dt * diff * size; for (l=0; l<20; l++) { for (k=1; k<=n[2]; k++) { for (j=1; j<=n[1]; j++) { for (i=1; i<=n[0]; i++) { - x[v_I_pad(i, j, k, n)] = (x0[v_I_pad(i, j, k, n)]) + a*( x0[v_I_pad(i-1, j, k, n)]+ x0[v_I_pad(i+1, j, k, n)]+ x0[v_I_pad(i, j-1, k, n)]+ - x0[v_I_pad(i, j+1, k, n)]+ x0[v_I_pad(i, j, k-1, n)]+x0[v_I_pad(i, j, k+1, n)] - ) / (1+6*a); + x[v_I_pad(i, j, k, n)] = + ((x0[v_I_pad(i, j, k, n)]) + ( + (x0[v_I_pad(i - 1, j, k, n)] + + x0[v_I_pad(i + 1, j, k, n)] + + x0[v_I_pad(i, j - 1, k, n)] + + x0[v_I_pad(i, j + 1, k, n)] + + x0[v_I_pad(i, j, k - 1, n)] + + x0[v_I_pad(i, j, k + 1, n)]) * a) / (1 + 6 * a)); } } @@ -363,7 +379,7 @@ static void multiple_scattering_diffusion(Render *re, VolumePrecache *vp, Materi float fac = ma->vol.ms_intensity; int x, y, z, m; - int *n = vp->res; + const int *n = vp->res; const int size = (n[0]+2)*(n[1]+2)*(n[2]+2); const int do_test_break = (size > 100000); double time, lasttime= PIL_check_seconds_timer(); @@ -389,8 +405,8 @@ static void multiple_scattering_diffusion(Render *re, VolumePrecache *vp, Materi for (z=1; z<=n[2]; z++) { for (y=1; y<=n[1]; y++) { for (x=1; x<=n[0]; x++) { - const int i = lc_to_ms_I(x, y, z, n); //lc index - const int j = ms_I(x, y, z, n); //ms index + const int64_t i = lc_to_ms_I(x, y, z, n); //lc index + const int64_t j = ms_I(x, y, z, n); //ms index time= PIL_check_seconds_timer(); c++; @@ -448,8 +464,8 @@ static void multiple_scattering_diffusion(Render *re, VolumePrecache *vp, Materi for (z=1;z<=n[2];z++) { for (y=1;y<=n[1];y++) { for (x=1;x<=n[0];x++) { - const int i = lc_to_ms_I(x, y, z, n); //lc index - const int j = ms_I(x, y, z, n); //ms index + const int64_t i = lc_to_ms_I(x, y, z, n); //lc index + const int64_t j = ms_I(x, y, z, n); //ms index vp->data_r[i] = origf * vp->data_r[i] + fac * sr[j]; vp->data_g[i] = origf * vp->data_g[i] + fac * sg[j]; @@ -507,7 +523,7 @@ static void vol_precache_part(TaskPool *pool, void *taskdata, int UNUSED(threadi ShadeInput *shi = pa->shi; float scatter_col[3] = {0.f, 0.f, 0.f}; float co[3], cco[3], view[3]; - int x, y, z, i; + int x, y, z; int res[3]; double time; @@ -527,6 +543,7 @@ static void vol_precache_part(TaskPool *pool, void *taskdata, int UNUSED(threadi co[1] = pa->bbmin[1] + (pa->voxel[1] * (y + 0.5f)); for (x=pa->minx; x < pa->maxx; x++) { + int64_t i; co[0] = pa->bbmin[0] + (pa->voxel[0] * (x + 0.5f)); if (re->test_break && re->test_break(re->tbh)) |