diff options
Diffstat (limited to 'source/blender/blenkernel/intern')
-rw-r--r-- | source/blender/blenkernel/intern/depsgraph.c | 17 | ||||
-rw-r--r-- | source/blender/blenkernel/intern/effect.c | 21 | ||||
-rw-r--r-- | source/blender/blenkernel/intern/pointcache.c | 162 | ||||
-rw-r--r-- | source/blender/blenkernel/intern/smoke.c | 2818 | ||||
-rw-r--r-- | source/blender/blenkernel/intern/texture.c | 2 |
5 files changed, 1806 insertions, 1214 deletions
diff --git a/source/blender/blenkernel/intern/depsgraph.c b/source/blender/blenkernel/intern/depsgraph.c index 31a6f768f89..9b52fbae626 100644 --- a/source/blender/blenkernel/intern/depsgraph.c +++ b/source/blender/blenkernel/intern/depsgraph.c @@ -400,8 +400,7 @@ static void dag_add_material_driver_relations(DagForest *dag, DagNode *node, Mat } } -static void dag_add_collision_field_relation(DagForest *dag, Scene *scene, Object *ob, DagNode *node) -{ +static void dag_add_collision_field_relation(DagForest *dag, Scene *scene, Object *ob, DagNode *node, int skip_forcefield){ Base *base; DagNode *node2; @@ -411,6 +410,8 @@ static void dag_add_collision_field_relation(DagForest *dag, Scene *scene, Objec if ((base->lay & ob->lay) && base->object->pd) { Object *ob1 = base->object; if ((ob1->pd->deflect || ob1->pd->forcefield) && (ob1 != ob)) { + if (skip_forcefield && ob1->pd->forcefield == skip_forcefield) + continue; node2 = dag_get_node(dag, ob1); dag_add_relation(dag, node2, node, DAG_RL_DATA_DATA | DAG_RL_OB_DATA, "Field Collision"); } @@ -570,12 +571,14 @@ static void build_dag_object(DagForest *dag, DagNode *scenenode, Scene *scene, O /* softbody collision */ if ((ob->type == OB_MESH) || (ob->type == OB_CURVE) || (ob->type == OB_LATTICE)) { if (ob->particlesystem.first || - modifiers_isModifierEnabled(ob, eModifierType_Softbody) || - modifiers_isModifierEnabled(ob, eModifierType_Cloth) || - modifiers_isModifierEnabled(ob, eModifierType_Smoke) || - modifiers_isModifierEnabled(ob, eModifierType_DynamicPaint)) + modifiers_isModifierEnabled(ob, eModifierType_Softbody) || + modifiers_isModifierEnabled(ob, eModifierType_Cloth) || + modifiers_isModifierEnabled(ob, eModifierType_DynamicPaint)) { - dag_add_collision_field_relation(dag, scene, ob, node); /* TODO: use effectorweight->group */ + dag_add_collision_field_relation(dag, scene, ob, node, 0); /* TODO: use effectorweight->group */ + } + else if (modifiers_isModifierEnabled(ob, eModifierType_Smoke)) { + dag_add_collision_field_relation(dag, scene, ob, node, PFIELD_SMOKEFLOW); } } diff --git a/source/blender/blenkernel/intern/effect.c b/source/blender/blenkernel/intern/effect.c index 4f4bafd00b4..495814acbee 100644 --- a/source/blender/blenkernel/intern/effect.c +++ b/source/blender/blenkernel/intern/effect.c @@ -84,6 +84,7 @@ #include "BKE_object.h" #include "BKE_particle.h" #include "BKE_scene.h" +#include "BKE_smoke.h" #include "RE_render_ext.h" @@ -137,6 +138,9 @@ PartDeflect *object_add_collision_fields(int type) case PFIELD_TEXTURE: pd->f_size = 1.0f; break; + case PFIELD_SMOKEFLOW: + pd->f_flow = 1.0f; + break; } pd->flag = PFIELD_DO_LOCATION|PFIELD_DO_ROTATION; @@ -922,12 +926,27 @@ static void do_physical_effector(EffectorCache *eff, EffectorData *efd, Effected mul_v3_fl(force, -efd->falloff * fac * (strength * fac + damp)); break; + case PFIELD_SMOKEFLOW: + zero_v3(force); + if (pd->f_source) { + float density; + if ((density = smoke_get_velocity_at(pd->f_source, point->loc, force)) >= 0.0f) { + float influence = strength * efd->falloff; + if (pd->flag & PFIELD_SMOKE_DENSITY) + influence *= density; + mul_v3_fl(force, influence); + /* apply flow */ + madd_v3_v3fl(total_force, point->vel, -pd->f_flow * influence); + } + } + break; + } if (pd->flag & PFIELD_DO_LOCATION) { madd_v3_v3fl(total_force, force, 1.0f/point->vel_to_sec); - if (ELEM(pd->forcefield, PFIELD_HARMONIC, PFIELD_DRAG)==0 && pd->f_flow != 0.0f) { + if (ELEM3(pd->forcefield, PFIELD_HARMONIC, PFIELD_DRAG, PFIELD_SMOKEFLOW)==0 && pd->f_flow != 0.0f) { madd_v3_v3fl(total_force, point->vel, -pd->f_flow * efd->falloff); } } diff --git a/source/blender/blenkernel/intern/pointcache.c b/source/blender/blenkernel/intern/pointcache.c index 8c0d19ba1fd..6b90ec88362 100644 --- a/source/blender/blenkernel/intern/pointcache.c +++ b/source/blender/blenkernel/intern/pointcache.c @@ -532,20 +532,31 @@ static int ptcache_smoke_totpoint(void *smoke_v, int UNUSED(cfra)) SmokeDomainSettings *sds = smd->domain; if (sds->fluid) { - return sds->res[0]*sds->res[1]*sds->res[2]; + return sds->base_res[0]*sds->base_res[1]*sds->base_res[2]; } else return 0; } + +#define SMOKE_CACHE_VERSION "1.04" + static int ptcache_smoke_write(PTCacheFile *pf, void *smoke_v) { SmokeModifierData *smd= (SmokeModifierData *)smoke_v; SmokeDomainSettings *sds = smd->domain; int ret = 0; + int fluid_fields = smoke_get_data_flags(sds); + + /* version header */ + ptcache_file_write(pf, SMOKE_CACHE_VERSION, 4, sizeof(char)); + ptcache_file_write(pf, &fluid_fields, 1, sizeof(int)); + ptcache_file_write(pf, &sds->active_fields, 1, sizeof(int)); + ptcache_file_write(pf, &sds->res, 3, sizeof(int)); + ptcache_file_write(pf, &sds->dx, 1, sizeof(float)); if (sds->fluid) { size_t res = sds->res[0]*sds->res[1]*sds->res[2]; - float dt, dx, *dens, *densold, *heat, *heatold, *vx, *vy, *vz, *vxold, *vyold, *vzold; + float dt, dx, *dens, *react, *fuel, *flame, *heat, *heatold, *vx, *vy, *vz, *r, *g, *b; unsigned char *obstacles; unsigned int in_len = sizeof(float)*(unsigned int)res; unsigned char *out = (unsigned char *)MEM_callocN(LZO_OUT_LEN(in_len)*4, "pointcache_lzo_buffer"); @@ -553,22 +564,40 @@ static int ptcache_smoke_write(PTCacheFile *pf, void *smoke_v) int mode=1; // light if (sds->cache_comp == SM_CACHE_HEAVY) mode=2; // heavy - smoke_export(sds->fluid, &dt, &dx, &dens, &densold, &heat, &heatold, &vx, &vy, &vz, &vxold, &vyold, &vzold, &obstacles); + smoke_export(sds->fluid, &dt, &dx, &dens, &react, &flame, &fuel, &heat, &heatold, &vx, &vy, &vz, &r, &g, &b, &obstacles); ptcache_file_compressed_write(pf, (unsigned char *)sds->shadow, in_len, out, mode); ptcache_file_compressed_write(pf, (unsigned char *)dens, in_len, out, mode); - ptcache_file_compressed_write(pf, (unsigned char *)densold, in_len, out, mode); - ptcache_file_compressed_write(pf, (unsigned char *)heat, in_len, out, mode); - ptcache_file_compressed_write(pf, (unsigned char *)heatold, in_len, out, mode); + if (fluid_fields & SM_ACTIVE_HEAT) { + ptcache_file_compressed_write(pf, (unsigned char *)heat, in_len, out, mode); + ptcache_file_compressed_write(pf, (unsigned char *)heatold, in_len, out, mode); + } + if (fluid_fields & SM_ACTIVE_FIRE) { + ptcache_file_compressed_write(pf, (unsigned char *)flame, in_len, out, mode); + ptcache_file_compressed_write(pf, (unsigned char *)fuel, in_len, out, mode); + ptcache_file_compressed_write(pf, (unsigned char *)react, in_len, out, mode); + } + if (fluid_fields & SM_ACTIVE_COLORS) { + ptcache_file_compressed_write(pf, (unsigned char *)r, in_len, out, mode); + ptcache_file_compressed_write(pf, (unsigned char *)g, in_len, out, mode); + ptcache_file_compressed_write(pf, (unsigned char *)b, in_len, out, mode); + } ptcache_file_compressed_write(pf, (unsigned char *)vx, in_len, out, mode); ptcache_file_compressed_write(pf, (unsigned char *)vy, in_len, out, mode); ptcache_file_compressed_write(pf, (unsigned char *)vz, in_len, out, mode); - ptcache_file_compressed_write(pf, (unsigned char *)vxold, in_len, out, mode); - ptcache_file_compressed_write(pf, (unsigned char *)vyold, in_len, out, mode); - ptcache_file_compressed_write(pf, (unsigned char *)vzold, in_len, out, mode); ptcache_file_compressed_write(pf, (unsigned char *)obstacles, (unsigned int)res, out, mode); ptcache_file_write(pf, &dt, 1, sizeof(float)); ptcache_file_write(pf, &dx, 1, sizeof(float)); + ptcache_file_write(pf, &sds->p0, 3, sizeof(float)); + ptcache_file_write(pf, &sds->p1, 3, sizeof(float)); + ptcache_file_write(pf, &sds->dp0, 3, sizeof(float)); + ptcache_file_write(pf, &sds->shift, 3, sizeof(int)); + ptcache_file_write(pf, &sds->obj_shift_f, 3, sizeof(float)); + ptcache_file_write(pf, &sds->obmat, 16, sizeof(float)); + ptcache_file_write(pf, &sds->base_res, 3, sizeof(int)); + ptcache_file_write(pf, &sds->res_min, 3, sizeof(int)); + ptcache_file_write(pf, &sds->res_max, 3, sizeof(int)); + ptcache_file_write(pf, &sds->active_color, 3, sizeof(float)); MEM_freeN(out); @@ -579,7 +608,7 @@ static int ptcache_smoke_write(PTCacheFile *pf, void *smoke_v) int res_big_array[3]; int res_big; int res = sds->res[0]*sds->res[1]*sds->res[2]; - float *dens, *densold, *tcu, *tcv, *tcw; + float *dens, *react, *fuel, *flame, *tcu, *tcv, *tcw, *r, *g, *b; unsigned int in_len = sizeof(float)*(unsigned int)res; unsigned int in_len_big; unsigned char *out; @@ -593,11 +622,20 @@ static int ptcache_smoke_write(PTCacheFile *pf, void *smoke_v) in_len_big = sizeof(float) * (unsigned int)res_big; - smoke_turbulence_export(sds->wt, &dens, &densold, &tcu, &tcv, &tcw); + smoke_turbulence_export(sds->wt, &dens, &react, &flame, &fuel, &r, &g, &b, &tcu, &tcv, &tcw); out = (unsigned char *)MEM_callocN(LZO_OUT_LEN(in_len_big), "pointcache_lzo_buffer"); ptcache_file_compressed_write(pf, (unsigned char *)dens, in_len_big, out, mode); - ptcache_file_compressed_write(pf, (unsigned char *)densold, in_len_big, out, mode); + if (fluid_fields & SM_ACTIVE_FIRE) { + ptcache_file_compressed_write(pf, (unsigned char *)flame, in_len_big, out, mode); + ptcache_file_compressed_write(pf, (unsigned char *)fuel, in_len_big, out, mode); + ptcache_file_compressed_write(pf, (unsigned char *)react, in_len_big, out, mode); + } + if (fluid_fields & SM_ACTIVE_COLORS) { + ptcache_file_compressed_write(pf, (unsigned char *)r, in_len_big, out, mode); + ptcache_file_compressed_write(pf, (unsigned char *)g, in_len_big, out, mode); + ptcache_file_compressed_write(pf, (unsigned char *)b, in_len_big, out, mode); + } MEM_freeN(out); out = (unsigned char *)MEM_callocN(LZO_OUT_LEN(in_len), "pointcache_lzo_buffer"); @@ -615,34 +653,95 @@ static int ptcache_smoke_read(PTCacheFile *pf, void *smoke_v) { SmokeModifierData *smd= (SmokeModifierData *)smoke_v; SmokeDomainSettings *sds = smd->domain; + char version[4]; + int ch_res[3]; + float ch_dx; + int fluid_fields = smoke_get_data_flags(sds); + int cache_fields = 0; + int active_fields = 0; + int reallocate = 0; + + /* version header */ + ptcache_file_read(pf, version, 4, sizeof(char)); + if (strncmp(version, SMOKE_CACHE_VERSION, 4)) return 0; + /* fluid info */ + ptcache_file_read(pf, &cache_fields, 1, sizeof(int)); + ptcache_file_read(pf, &active_fields, 1, sizeof(int)); + ptcache_file_read(pf, &ch_res, 3, sizeof(int)); + ptcache_file_read(pf, &ch_dx, 1, sizeof(float)); + + /* check if resolution has changed */ + if (sds->res[0] != ch_res[0] || + sds->res[1] != ch_res[1] || + sds->res[2] != ch_res[2]) { + if (sds->flags & MOD_SMOKE_ADAPTIVE_DOMAIN) + reallocate = 1; + else + return 0; + } + /* check if active fields have changed */ + if (fluid_fields != cache_fields || + active_fields != sds->active_fields) + reallocate = 1; + + /* reallocate fluid if needed*/ + if (reallocate) { + sds->active_fields = active_fields; + smoke_reallocate_fluid(sds, ch_dx, ch_res, 1); + sds->dx = ch_dx; + VECCOPY(sds->res, ch_res); + sds->total_cells = ch_res[0]*ch_res[1]*ch_res[2]; + if(sds->flags & MOD_SMOKE_HIGHRES) { + smoke_reallocate_highres_fluid(sds, ch_dx, ch_res, 1); + } + } if (sds->fluid) { size_t res = sds->res[0]*sds->res[1]*sds->res[2]; - float dt, dx, *dens, *densold, *heat, *heatold, *vx, *vy, *vz, *vxold, *vyold, *vzold; + float dt, dx, *dens, *react, *fuel, *flame, *heat, *heatold, *vx, *vy, *vz, *r, *g, *b; unsigned char *obstacles; unsigned int out_len = (unsigned int)res * sizeof(float); - smoke_export(sds->fluid, &dt, &dx, &dens, &densold, &heat, &heatold, &vx, &vy, &vz, &vxold, &vyold, &vzold, &obstacles); + smoke_export(sds->fluid, &dt, &dx, &dens, &react, &flame, &fuel, &heat, &heatold, &vx, &vy, &vz, &r, &g, &b, &obstacles); ptcache_file_compressed_read(pf, (unsigned char *)sds->shadow, out_len); ptcache_file_compressed_read(pf, (unsigned char*)dens, out_len); - ptcache_file_compressed_read(pf, (unsigned char*)densold, out_len); - ptcache_file_compressed_read(pf, (unsigned char*)heat, out_len); - ptcache_file_compressed_read(pf, (unsigned char*)heatold, out_len); + if (cache_fields & SM_ACTIVE_HEAT) { + ptcache_file_compressed_read(pf, (unsigned char*)heat, out_len); + ptcache_file_compressed_read(pf, (unsigned char*)heatold, out_len); + } + if (cache_fields & SM_ACTIVE_FIRE) { + ptcache_file_compressed_read(pf, (unsigned char*)flame, out_len); + ptcache_file_compressed_read(pf, (unsigned char*)fuel, out_len); + ptcache_file_compressed_read(pf, (unsigned char*)react, out_len); + } + if (cache_fields & SM_ACTIVE_COLORS) { + ptcache_file_compressed_read(pf, (unsigned char*)r, out_len); + ptcache_file_compressed_read(pf, (unsigned char*)g, out_len); + ptcache_file_compressed_read(pf, (unsigned char*)b, out_len); + } ptcache_file_compressed_read(pf, (unsigned char*)vx, out_len); ptcache_file_compressed_read(pf, (unsigned char*)vy, out_len); ptcache_file_compressed_read(pf, (unsigned char*)vz, out_len); - ptcache_file_compressed_read(pf, (unsigned char*)vxold, out_len); - ptcache_file_compressed_read(pf, (unsigned char*)vyold, out_len); - ptcache_file_compressed_read(pf, (unsigned char*)vzold, out_len); ptcache_file_compressed_read(pf, (unsigned char*)obstacles, (unsigned int)res); ptcache_file_read(pf, &dt, 1, sizeof(float)); ptcache_file_read(pf, &dx, 1, sizeof(float)); - - if (pf->data_types & (1<<BPHYS_DATA_SMOKE_HIGH) && sds->wt) { + ptcache_file_read(pf, &sds->p0, 3, sizeof(float)); + ptcache_file_read(pf, &sds->p1, 3, sizeof(float)); + ptcache_file_read(pf, &sds->dp0, 3, sizeof(float)); + ptcache_file_read(pf, &sds->shift, 3, sizeof(int)); + ptcache_file_read(pf, &sds->obj_shift_f, 3, sizeof(float)); + ptcache_file_read(pf, &sds->obmat, 16, sizeof(float)); + ptcache_file_read(pf, &sds->base_res, 3, sizeof(int)); + ptcache_file_read(pf, &sds->res_min, 3, sizeof(int)); + ptcache_file_read(pf, &sds->res_max, 3, sizeof(int)); + ptcache_file_read(pf, &sds->active_color, 3, sizeof(float)); + } + + if (pf->data_types & (1<<BPHYS_DATA_SMOKE_HIGH) && sds->wt) { int res = sds->res[0]*sds->res[1]*sds->res[2]; int res_big, res_big_array[3]; - float *dens, *densold, *tcu, *tcv, *tcw; + float *dens, *react, *fuel, *flame, *tcu, *tcv, *tcw, *r, *g, *b; unsigned int out_len = sizeof(float)*(unsigned int)res; unsigned int out_len_big; @@ -650,16 +749,23 @@ static int ptcache_smoke_read(PTCacheFile *pf, void *smoke_v) res_big = res_big_array[0]*res_big_array[1]*res_big_array[2]; out_len_big = sizeof(float) * (unsigned int)res_big; - smoke_turbulence_export(sds->wt, &dens, &densold, &tcu, &tcv, &tcw); + smoke_turbulence_export(sds->wt, &dens, &react, &flame, &fuel, &r, &g, &b, &tcu, &tcv, &tcw); ptcache_file_compressed_read(pf, (unsigned char*)dens, out_len_big); - ptcache_file_compressed_read(pf, (unsigned char*)densold, out_len_big); + if (cache_fields & SM_ACTIVE_FIRE) { + ptcache_file_compressed_read(pf, (unsigned char*)flame, out_len_big); + ptcache_file_compressed_read(pf, (unsigned char*)fuel, out_len_big); + } + if (cache_fields & SM_ACTIVE_COLORS) { + ptcache_file_compressed_read(pf, (unsigned char*)r, out_len_big); + ptcache_file_compressed_read(pf, (unsigned char*)g, out_len_big); + ptcache_file_compressed_read(pf, (unsigned char*)b, out_len_big); + } ptcache_file_compressed_read(pf, (unsigned char*)tcu, out_len); ptcache_file_compressed_read(pf, (unsigned char*)tcv, out_len); ptcache_file_compressed_read(pf, (unsigned char*)tcw, out_len); } - } return 1; } @@ -2466,10 +2572,10 @@ int BKE_ptcache_id_reset(Scene *scene, PTCacheID *pid, int mode) sbFreeSimulation(pid->calldata); else if (pid->type == PTCACHE_TYPE_PARTICLES) psys_reset(pid->calldata, PSYS_RESET_DEPSGRAPH); - else if (pid->type == PTCACHE_TYPE_SMOKE_DOMAIN) + /*else if (pid->type == PTCACHE_TYPE_SMOKE_DOMAIN) smokeModifier_reset(pid->calldata); else if (pid->type == PTCACHE_TYPE_SMOKE_HIGHRES) - smokeModifier_reset_turbulence(pid->calldata); + smokeModifier_reset_turbulence(pid->calldata);*/ else if (pid->type == PTCACHE_TYPE_DYNAMICPAINT) dynamicPaint_clearSurface((DynamicPaintSurface*)pid->calldata); } diff --git a/source/blender/blenkernel/intern/smoke.c b/source/blender/blenkernel/intern/smoke.c index 5e67e094e43..a07c58746df 100644 --- a/source/blender/blenkernel/intern/smoke.c +++ b/source/blender/blenkernel/intern/smoke.c @@ -51,18 +51,7 @@ #include "BLI_kdtree.h" #include "BLI_kdopbvh.h" #include "BLI_utildefines.h" - -#include "BKE_bvhutils.h" -#include "BKE_cdderivedmesh.h" -#include "BKE_collision.h" -#include "BKE_customdata.h" -#include "BKE_DerivedMesh.h" -#include "BKE_effect.h" -#include "BKE_modifier.h" -#include "BKE_particle.h" -#include "BKE_pointcache.h" -#include "BKE_smoke.h" - +#include "BLI_voxel.h" #include "DNA_customdata_types.h" #include "DNA_group_types.h" @@ -75,8 +64,20 @@ #include "DNA_scene_types.h" #include "DNA_smoke_types.h" +#include "BKE_bvhutils.h" +#include "BKE_cdderivedmesh.h" +#include "BKE_collision.h" +#include "BKE_customdata.h" +#include "BKE_deform.h" +#include "BKE_DerivedMesh.h" +#include "BKE_effect.h" +#include "BKE_modifier.h" +#include "BKE_particle.h" +#include "BKE_pointcache.h" #include "BKE_smoke.h" +#include "RE_shader_ext.h" + /* UNUSED so far, may be enabled later */ /* #define USE_SMOKE_COLLISION_DM */ @@ -103,7 +104,7 @@ static void tend ( void ) { QueryPerformanceCounter ( &liCurrentTime ); } -static double UNUSED_FUNCTION(tval)( void ) +static double tval( void ) { return ((double)( (liCurrentTime.QuadPart - liStartTime.QuadPart)* (double)1000.0/(double)liFrequency.QuadPart )); } @@ -134,590 +135,220 @@ struct Scene; struct DerivedMesh; struct SmokeModifierData; -#define TRI_UVOFFSET (1./4.) - // timestep default value for nice appearance 0.1f #define DT_DEFAULT 0.1f -/* forward declerations */ -static void calcTriangleDivs(Object *ob, MVert *verts, int numverts, MFace *tris, int numfaces, int numtris, int **tridivs, float cell_len); -static void get_cell(const float p0[3], const int res[3], float dx, const float pos[3], int cell[3], int correct); -static void fill_scs_points(Object *ob, DerivedMesh *dm, SmokeCollSettings *scs); +#define ADD_IF_LOWER_POS(a,b) (MIN2((a)+(b), MAX2((a),(b)))) +#define ADD_IF_LOWER_NEG(a,b) (MAX2((a)+(b), MIN2((a),(b)))) +#define ADD_IF_LOWER(a,b) (((b)>0)?ADD_IF_LOWER_POS((a),(b)):ADD_IF_LOWER_NEG((a),(b))) #else /* WITH_SMOKE */ /* Stubs to use when smoke is disabled */ -struct WTURBULENCE *smoke_turbulence_init(int *UNUSED(res), int UNUSED(amplify), int UNUSED(noisetype)) { return NULL; } -// struct FLUID_3D *smoke_init(int *UNUSED(res), float *UNUSED(p0)) { return NULL; } +struct WTURBULENCE *smoke_turbulence_init(int *UNUSED(res), int UNUSED(amplify), int UNUSED(noisetype), int UNUSED(use_fire), int UNUSED(use_colors)) { return NULL; } +//struct FLUID_3D *smoke_init(int *UNUSED(res), float *UNUSED(dx), float *UNUSED(dtdef), int UNUSED(use_heat), int UNUSED(use_fire), int UNUSED(use_colors)) { return NULL; } void smoke_free(struct FLUID_3D *UNUSED(fluid)) {} float *smoke_get_density(struct FLUID_3D *UNUSED(fluid)) { return NULL; } void smoke_turbulence_free(struct WTURBULENCE *UNUSED(wt)) {} void smoke_initWaveletBlenderRNA(struct WTURBULENCE *UNUSED(wt), float *UNUSED(strength)) {} -void smoke_initBlenderRNA(struct FLUID_3D *UNUSED(fluid), float *UNUSED(alpha), float *UNUSED(beta), float *UNUSED(dt_factor), float *UNUSED(vorticity), int *UNUSED(border_colli)) {} -long long smoke_get_mem_req(int UNUSED(xres), int UNUSED(yres), int UNUSED(zres), int UNUSED(amplify)) { return 0; } -void smokeModifier_do(SmokeModifierData *UNUSED(smd), Scene *UNUSED(scene), Object *UNUSED(ob), DerivedMesh *UNUSED(dm)) {} +void smoke_initBlenderRNA(struct FLUID_3D *UNUSED(fluid), float *UNUSED(alpha), float *UNUSED(beta), float *UNUSED(dt_factor), float *UNUSED(vorticity), + int *UNUSED(border_colli), float *UNUSED(burning_rate), float *UNUSED(flame_smoke), float *UNUSED(flame_smoke_color), + float *UNUSED(flame_vorticity), float *UNUSED(flame_ignition_temp), float *UNUSED(flame_max_temp)) {} +struct DerivedMesh *smokeModifier_do(SmokeModifierData *UNUSED(smd), Scene *UNUSED(scene), Object *UNUSED(ob), DerivedMesh *UNUSED(dm)) { return NULL; } +float smoke_get_velocity_at(struct Object *UNUSED(ob), float UNUSED(position[3]), float UNUSED(velocity[3])) { return 0.0f; } +void flame_get_spectrum(unsigned char *UNUSED(spec), int UNUSED(width), float UNUSED(t1), float UNUSED(t2)) {} #endif /* WITH_SMOKE */ #ifdef WITH_SMOKE -static int smokeModifier_init (SmokeModifierData *smd, Object *ob, Scene *scene, DerivedMesh *dm) +void smoke_reallocate_fluid(SmokeDomainSettings *sds, float dx, int res[3], int free_old) { - if((smd->type & MOD_SMOKE_TYPE_DOMAIN) && smd->domain && !smd->domain->fluid) - { - size_t i; - float min[3] = {FLT_MAX, FLT_MAX, FLT_MAX}, max[3] = {-FLT_MAX, -FLT_MAX, -FLT_MAX}; - float size[3]; - MVert *verts = dm->getVertArray(dm); - float scale = 0.0; - int res; + int use_heat = (sds->active_fields & SM_ACTIVE_HEAT); + int use_fire = (sds->active_fields & (SM_ACTIVE_HEAT|SM_ACTIVE_FIRE)); + int use_colors = (sds->active_fields & SM_ACTIVE_COLORS); + + if (free_old && sds->fluid) + smoke_free(sds->fluid); + if (!MIN3(res[0],res[1],res[2])) { + sds->fluid = NULL; + return; + } + sds->fluid = smoke_init(res, dx, DT_DEFAULT, use_heat, use_fire, use_colors); + smoke_initBlenderRNA(sds->fluid, &(sds->alpha), &(sds->beta), &(sds->time_scale), &(sds->vorticity), &(sds->border_collisions), + &(sds->burning_rate), &(sds->flame_smoke), sds->flame_smoke_color, &(sds->flame_vorticity), &(sds->flame_ignition), &(sds->flame_max_temp)); + + /* reallocate shadow buffer */ + if (sds->shadow) + MEM_freeN(sds->shadow); + sds->shadow = MEM_callocN(sizeof(float) * res[0] * res[1] * res[2], "SmokeDomainShadow"); +} - res = smd->domain->maxres; +void smoke_reallocate_highres_fluid(SmokeDomainSettings *sds, float dx, int res[3], int free_old) +{ + int use_fire = (sds->active_fields & (SM_ACTIVE_HEAT|SM_ACTIVE_FIRE)); + int use_colors = (sds->active_fields & SM_ACTIVE_COLORS); - // get BB of domain - for(i = 0; i < dm->getNumVerts(dm); i++) - { - float tmp[3]; + if (free_old && sds->wt) + smoke_turbulence_free(sds->wt); + if (!MIN3(res[0],res[1],res[2])) { + sds->wt = NULL; + return; + } + sds->wt = smoke_turbulence_init(res, sds->amplify + 1, sds->noise, use_fire, use_colors); + sds->res_wt[0] = res[0] * (sds->amplify + 1); + sds->res_wt[1] = res[1] * (sds->amplify + 1); + sds->res_wt[2] = res[2] * (sds->amplify + 1); + sds->dx_wt = dx / (sds->amplify + 1); + smoke_initWaveletBlenderRNA(sds->wt, &(sds->strength)); +} - copy_v3_v3(tmp, verts[i].co); - mul_m4_v3(ob->obmat, tmp); +/* convert global position to domain cell space */ +static void smoke_pos_to_cell(SmokeDomainSettings *sds, float pos[3]) +{ + mul_m4_v3(sds->imat, pos); + sub_v3_v3(pos, sds->p0); + pos[0] *= 1.0f/sds->cell_size[0]; + pos[1] *= 1.0f/sds->cell_size[1]; + pos[2] *= 1.0f/sds->cell_size[2]; +} - // min BB - min[0] = MIN2(min[0], tmp[0]); - min[1] = MIN2(min[1], tmp[1]); - min[2] = MIN2(min[2], tmp[2]); +/* set domain resolution and dimensions from object derivedmesh */ +static void smoke_set_domain_from_derivedmesh(SmokeDomainSettings *sds, Object *ob, DerivedMesh *dm) +{ + size_t i; + float min[3] = {FLT_MAX, FLT_MAX, FLT_MAX}, max[3] = {-FLT_MAX, -FLT_MAX, -FLT_MAX}; + float size[3]; + MVert *verts = dm->getVertArray(dm); + float scale = 0.0; + int res; - // max BB - max[0] = MAX2(max[0], tmp[0]); - max[1] = MAX2(max[1], tmp[1]); - max[2] = MAX2(max[2], tmp[2]); - } + res = sds->maxres; - copy_v3_v3(smd->domain->p0, min); - copy_v3_v3(smd->domain->p1, max); + // get BB of domain + for(i = 0; i < dm->getNumVerts(dm); i++) + { + // min BB + min[0] = MIN2(min[0], verts[i].co[0]); + min[1] = MIN2(min[1], verts[i].co[1]); + min[2] = MIN2(min[2], verts[i].co[2]); + + // max BB + max[0] = MAX2(max[0], verts[i].co[0]); + max[1] = MAX2(max[1], verts[i].co[1]); + max[2] = MAX2(max[2], verts[i].co[2]); + } - // calc other res with max_res provided - sub_v3_v3v3(size, max, min); + /* set domain bounds */ + copy_v3_v3(sds->p0, min); + copy_v3_v3(sds->p1, max); + sds->dx = 1.0f / res; - // prevent crash when initializing a plane as domain - if((size[0] < FLT_EPSILON) || (size[1] < FLT_EPSILON) || (size[2] < FLT_EPSILON)) - return 0; + /* calculate domain dimensions */ + sub_v3_v3v3(size, max, min); + copy_v3_v3(sds->cell_size, size); + mul_v3_v3(size, ob->size); + copy_v3_v3(sds->global_size, size); + copy_v3_v3(sds->dp0, min); - if(size[0] > size[1]) - { - if(size[0] > size[2]) - { - scale = res / size[0]; - smd->domain->scale = size[0]; - smd->domain->dx = 1.0f / res; - smd->domain->res[0] = res; - smd->domain->res[1] = (int)(size[1] * scale + 0.5); - smd->domain->res[2] = (int)(size[2] * scale + 0.5); - } - else { - scale = res / size[2]; - smd->domain->scale = size[2]; - smd->domain->dx = 1.0f / res; - smd->domain->res[2] = res; - smd->domain->res[0] = (int)(size[0] * scale + 0.5); - smd->domain->res[1] = (int)(size[1] * scale + 0.5); - } + invert_m4_m4(sds->imat, ob->obmat); + + // prevent crash when initializing a plane as domain + if((size[0] < FLT_EPSILON) || (size[1] < FLT_EPSILON) || (size[2] < FLT_EPSILON)) + return; + + /* define grid resolutions from longest domain side */ + if (size[0] > MAX2(size[1], size[2])) { + scale = res / size[0]; + sds->scale = size[0] / ob->size[0]; + sds->base_res[0] = res; + sds->base_res[1] = (int)(size[1] * scale + 0.5); + sds->base_res[2] = (int)(size[2] * scale + 0.5); + } + else if (size[1] > MAX2(size[0], size[2])) { + scale = res / size[1]; + sds->scale = size[1] / ob->size[1]; + sds->base_res[0] = (int)(size[0] * scale + 0.5); + sds->base_res[1] = res; + sds->base_res[2] = (int)(size[2] * scale + 0.5); + } + else { + scale = res / size[2]; + sds->scale = size[2] / ob->size[2]; + sds->base_res[0] = (int)(size[0] * scale + 0.5); + sds->base_res[1] = (int)(size[1] * scale + 0.5); + sds->base_res[2] = res; + } + + /* set cell size */ + sds->cell_size[0] /= (float)sds->base_res[0]; + sds->cell_size[1] /= (float)sds->base_res[1]; + sds->cell_size[2] /= (float)sds->base_res[2]; +} + +static int smokeModifier_init(SmokeModifierData *smd, Object *ob, Scene *scene, DerivedMesh *dm) +{ + if((smd->type & MOD_SMOKE_TYPE_DOMAIN) && smd->domain && !smd->domain->fluid) + { + SmokeDomainSettings *sds = smd->domain; + int res[3]; + /* set domain dimensions from derivedmesh */ + smoke_set_domain_from_derivedmesh(sds, ob, dm); + /* reset domain values */ + zero_v3_int(sds->shift); + zero_v3(sds->shift_f); + add_v3_fl(sds->shift_f, 0.5f); + zero_v3(sds->prev_loc); + mul_m4_v3(ob->obmat, sds->prev_loc); + + /* set resolutions */ + if (smd->domain->flags & MOD_SMOKE_ADAPTIVE_DOMAIN) { + res[0] = res[1] = res[2] = 1; /* use minimum res for adaptive init */ } else { - if(size[1] > size[2]) - { - scale = res / size[1]; - smd->domain->scale = size[1]; - smd->domain->dx = 1.0f / res; - smd->domain->res[1] = res; - smd->domain->res[0] = (int)(size[0] * scale + 0.5); - smd->domain->res[2] = (int)(size[2] * scale + 0.5); - } - else { - scale = res / size[2]; - smd->domain->scale = size[2]; - smd->domain->dx = 1.0f / res; - smd->domain->res[2] = res; - smd->domain->res[0] = (int)(size[0] * scale + 0.5); - smd->domain->res[1] = (int)(size[1] * scale + 0.5); - } + VECCOPY(res, sds->base_res); } + VECCOPY(sds->res, res); + sds->total_cells = sds->res[0]*sds->res[1]*sds->res[2]; + sds->res_min[0] = sds->res_min[1] = sds->res_min[2] = 0; + VECCOPY(sds->res_max, res); - // TODO: put in failsafe if res<=0 - dg + /* allocate fluid */ + smoke_reallocate_fluid(sds, sds->dx, sds->res, 0); - // dt max is 0.1 - smd->domain->fluid = smoke_init(smd->domain->res, smd->domain->p0, DT_DEFAULT); smd->time = scene->r.cfra; - if(smd->domain->flags & MOD_SMOKE_HIGHRES) - { - smd->domain->wt = smoke_turbulence_init(smd->domain->res, smd->domain->amplify + 1, smd->domain->noise); - smd->domain->res_wt[0] = smd->domain->res[0] * (smd->domain->amplify + 1); - smd->domain->res_wt[1] = smd->domain->res[1] * (smd->domain->amplify + 1); - smd->domain->res_wt[2] = smd->domain->res[2] * (smd->domain->amplify + 1); - smd->domain->dx_wt = smd->domain->dx / (smd->domain->amplify + 1); + /* allocate highres fluid */ + if(sds->flags & MOD_SMOKE_HIGHRES) { + smoke_reallocate_highres_fluid(sds, sds->dx, sds->res, 0); } + /* allocate shadow buffer */ + if(!sds->shadow) + sds->shadow = MEM_callocN(sizeof(float) * sds->res[0] * sds->res[1] * sds->res[2], "SmokeDomainShadow"); - if(!smd->domain->shadow) - smd->domain->shadow = MEM_callocN(sizeof(float) * smd->domain->res[0] * smd->domain->res[1] * smd->domain->res[2], "SmokeDomainShadow"); - - smoke_initBlenderRNA(smd->domain->fluid, &(smd->domain->alpha), &(smd->domain->beta), &(smd->domain->time_scale), &(smd->domain->vorticity), &(smd->domain->border_collisions)); - - if(smd->domain->wt) - { - smoke_initWaveletBlenderRNA(smd->domain->wt, &(smd->domain->strength)); - } return 1; } else if((smd->type & MOD_SMOKE_TYPE_FLOW) && smd->flow) { - // handle flow object here - // XXX TODO - smd->time = scene->r.cfra; return 1; } else if((smd->type & MOD_SMOKE_TYPE_COLL)) { - // todo: delete this when loading colls work -dg - if(!smd->coll) { smokeModifier_createType(smd); } - if(!smd->coll->points) - { - // init collision points - SmokeCollSettings *scs = smd->coll; - - smd->time = scene->r.cfra; - - // copy obmat - copy_m4_m4(scs->mat, ob->obmat); - copy_m4_m4(scs->mat_old, ob->obmat); - - DM_ensure_tessface(dm); - fill_scs_points(ob, dm, scs); - } + smd->time = scene->r.cfra; - if(!smd->coll->bvhtree) - { - smd->coll->bvhtree = NULL; // bvhtree_build_from_smoke ( ob->obmat, dm->getTessFaceArray(dm), dm->getNumTessFaces(dm), dm->getVertArray(dm), dm->getNumVerts(dm), 0.0 ); - } return 1; } return 2; } -static void fill_scs_points(Object *ob, DerivedMesh *dm, SmokeCollSettings *scs) -{ - MVert *mvert = dm->getVertArray(dm); - MFace *mface = dm->getTessFaceArray(dm); - int i = 0, divs = 0; - - // DG TODO: need to do this dynamically according to the domain object! - float cell_len = scs->dx; - int newdivs = 0; - int quads = 0, facecounter = 0; - - // count quads - for(i = 0; i < dm->getNumTessFaces(dm); i++) - { - if(mface[i].v4) - quads++; - } - - scs->numtris = dm->getNumTessFaces(dm) + quads; - scs->tridivs = NULL; - calcTriangleDivs(ob, mvert, dm->getNumVerts(dm), mface, dm->getNumTessFaces(dm), scs->numtris, &(scs->tridivs), cell_len); - - // count triangle divisions - for(i = 0; i < dm->getNumTessFaces(dm) + quads; i++) - { - divs += (scs->tridivs[3 * i] + 1) * (scs->tridivs[3 * i + 1] + 1) * (scs->tridivs[3 * i + 2] + 1); - } - - scs->points = MEM_callocN(sizeof(float) * (dm->getNumVerts(dm) + divs) * 3, "SmokeCollPoints"); - scs->points_old = MEM_callocN(sizeof(float) * (dm->getNumVerts(dm) + divs) * 3, "SmokeCollPointsOld"); - - for(i = 0; i < dm->getNumVerts(dm); i++) - { - float tmpvec[3]; - copy_v3_v3(tmpvec, mvert[i].co); - // mul_m4_v3(ob->obmat, tmpvec); // DG: use local coordinates, we save MAT anyway - copy_v3_v3(&scs->points[i * 3], tmpvec); - } - - for(i = 0, facecounter = 0; i < dm->getNumTessFaces(dm); i++) - { - int again = 0; - do - { - int j, k; - int divs1 = scs->tridivs[3 * facecounter + 0]; - int divs2 = scs->tridivs[3 * facecounter + 1]; - //int divs3 = scs->tridivs[3 * facecounter + 2]; - float side1[3], side2[3], trinormorg[3], trinorm[3]; - - if(again == 1 && mface[i].v4) - { - sub_v3_v3v3(side1, mvert[ mface[i].v3 ].co, mvert[ mface[i].v1 ].co); - sub_v3_v3v3(side2, mvert[ mface[i].v4 ].co, mvert[ mface[i].v1 ].co); - } - else { - sub_v3_v3v3(side1, mvert[ mface[i].v2 ].co, mvert[ mface[i].v1 ].co); - sub_v3_v3v3(side2, mvert[ mface[i].v3 ].co, mvert[ mface[i].v1 ].co); - } - - cross_v3_v3v3(trinormorg, side1, side2); - normalize_v3(trinormorg); - copy_v3_v3(trinorm, trinormorg); - mul_v3_fl(trinorm, 0.25 * cell_len); - - for(j = 0; j <= divs1; j++) - { - for(k = 0; k <= divs2; k++) - { - float p1[3], p2[3], p3[3], p[3]={0,0,0}; - const float uf = (float)(j + TRI_UVOFFSET) / (float)(divs1 + 0.0); - const float vf = (float)(k + TRI_UVOFFSET) / (float)(divs2 + 0.0); - float tmpvec[3]; - - if(uf+vf > 1.0) - { - // printf("bigger - divs1: %d, divs2: %d\n", divs1, divs2); - continue; - } - - copy_v3_v3(p1, mvert[ mface[i].v1 ].co); - if(again == 1 && mface[i].v4) - { - copy_v3_v3(p2, mvert[ mface[i].v3 ].co); - copy_v3_v3(p3, mvert[ mface[i].v4 ].co); - } - else { - copy_v3_v3(p2, mvert[ mface[i].v2 ].co); - copy_v3_v3(p3, mvert[ mface[i].v3 ].co); - } - - mul_v3_fl(p1, (1.0-uf-vf)); - mul_v3_fl(p2, uf); - mul_v3_fl(p3, vf); - - add_v3_v3v3(p, p1, p2); - add_v3_v3(p, p3); - - if(newdivs > divs) - printf("mem problem\n"); - - // mMovPoints.push_back(p + trinorm); - add_v3_v3v3(tmpvec, p, trinorm); - // mul_m4_v3(ob->obmat, tmpvec); // DG: use local coordinates, we save MAT anyway - copy_v3_v3(&scs->points[3 * (dm->getNumVerts(dm) + newdivs)], tmpvec); - newdivs++; - - if(newdivs > divs) - printf("mem problem\n"); - - // mMovPoints.push_back(p - trinorm); - copy_v3_v3(tmpvec, p); - sub_v3_v3(tmpvec, trinorm); - // mul_m4_v3(ob->obmat, tmpvec); // DG: use local coordinates, we save MAT anyway - copy_v3_v3(&scs->points[3 * (dm->getNumVerts(dm) + newdivs)], tmpvec); - newdivs++; - } - } - - if(again == 0 && mface[i].v4) - again++; - else - again = 0; - - facecounter++; - - } while(again!=0); - } - - scs->numverts = dm->getNumVerts(dm); - // DG TODO: also save triangle count? - - scs->numpoints = dm->getNumVerts(dm) + newdivs; - - for(i = 0; i < scs->numpoints * 3; i++) - { - scs->points_old[i] = scs->points[i]; - } -} - - -static void fill_scs_points_anim(Object *UNUSED(ob), DerivedMesh *dm, SmokeCollSettings *scs) -{ - MVert *mvert = dm->getVertArray(dm); - MFace *mface = dm->getTessFaceArray(dm); - int quads = 0, numtris = 0, facecounter = 0; - unsigned int i = 0; - int divs = 0, newdivs = 0; - - // DG TODO: need to do this dynamically according to the domain object! - float cell_len = scs->dx; - - // count quads - for(i = 0; i < dm->getNumTessFaces(dm); i++) - { - if(mface[i].v4) - quads++; - } - - numtris = dm->getNumTessFaces(dm) + quads; - - // check if mesh changed topology - if(scs->numtris != numtris) - return; - if(scs->numverts != dm->getNumVerts(dm)) - return; - - // update new positions - for(i = 0; i < dm->getNumVerts(dm); i++) - { - float tmpvec[3]; - copy_v3_v3(tmpvec, mvert[i].co); - copy_v3_v3(&scs->points[i * 3], tmpvec); - } - - // for every triangle // update div points - for(i = 0, facecounter = 0; i < dm->getNumTessFaces(dm); i++) - { - int again = 0; - do - { - int j, k; - int divs1 = scs->tridivs[3 * facecounter + 0]; - int divs2 = scs->tridivs[3 * facecounter + 1]; - float srcside1[3], srcside2[3], destside1[3], destside2[3], src_trinormorg[3], dest_trinormorg[3], src_trinorm[3], dest_trinorm[3]; - - if(again == 1 && mface[i].v4) - { - sub_v3_v3v3(srcside1, &scs->points_old[mface[i].v3 * 3], &scs->points_old[mface[i].v1 * 3]); - sub_v3_v3v3(destside1, &scs->points[mface[i].v3 * 3], &scs->points[mface[i].v1 * 3]); - - sub_v3_v3v3(srcside2, &scs->points_old[mface[i].v4 * 3], &scs->points_old[mface[i].v1 * 3]); - sub_v3_v3v3(destside2, &scs->points[mface[i].v4 * 3], &scs->points[mface[i].v1 * 3]); - } - else { - sub_v3_v3v3(srcside1, &scs->points_old[mface[i].v2 * 3], &scs->points_old[mface[i].v1 * 3]); - sub_v3_v3v3(destside1, &scs->points[mface[i].v2 * 3], &scs->points[mface[i].v1 * 3]); - - sub_v3_v3v3(srcside2, &scs->points_old[mface[i].v3 * 3], &scs->points_old[mface[i].v1 * 3]); - sub_v3_v3v3(destside2, &scs->points[mface[i].v3 * 3], &scs->points[mface[i].v1 * 3]); - } - - cross_v3_v3v3(src_trinormorg, srcside1, srcside2); - cross_v3_v3v3(dest_trinormorg, destside1, destside2); - - normalize_v3(src_trinormorg); - normalize_v3(dest_trinormorg); - - copy_v3_v3(src_trinorm, src_trinormorg); - copy_v3_v3(dest_trinorm, dest_trinormorg); - - mul_v3_fl(src_trinorm, 0.25 * cell_len); - mul_v3_fl(dest_trinorm, 0.25 * cell_len); - - for(j = 0; j <= divs1; j++) - { - for(k = 0; k <= divs2; k++) - { - float src_p1[3], src_p2[3], src_p3[3], src_p[3]={0,0,0}; - float dest_p1[3], dest_p2[3], dest_p3[3], dest_p[3]={0,0,0}; - const float uf = (float)(j + TRI_UVOFFSET) / (float)(divs1 + 0.0); - const float vf = (float)(k + TRI_UVOFFSET) / (float)(divs2 + 0.0); - float src_tmpvec[3], dest_tmpvec[3]; - - if(uf+vf > 1.0) - { - // printf("bigger - divs1: %d, divs2: %d\n", divs1, divs2); - continue; - } - - copy_v3_v3(src_p1, &scs->points_old[mface[i].v1 * 3]); - copy_v3_v3(dest_p1, &scs->points[mface[i].v1 * 3]); - if(again == 1 && mface[i].v4) - { - copy_v3_v3(src_p2, &scs->points_old[mface[i].v3 * 3]); - copy_v3_v3(dest_p2, &scs->points[mface[i].v3 * 3]); - - copy_v3_v3(src_p3,&scs->points_old[mface[i].v4 * 3]); - copy_v3_v3(dest_p3, &scs->points[mface[i].v4 * 3]); - } - else { - copy_v3_v3(src_p2, &scs->points_old[mface[i].v2 * 3]); - copy_v3_v3(dest_p2, &scs->points[mface[i].v2 * 3]); - copy_v3_v3(src_p3, &scs->points_old[mface[i].v3 * 3]); - copy_v3_v3(dest_p3, &scs->points[mface[i].v3 * 3]); - } - - mul_v3_fl(src_p1, (1.0-uf-vf)); - mul_v3_fl(dest_p1, (1.0-uf-vf)); - - mul_v3_fl(src_p2, uf); - mul_v3_fl(dest_p2, uf); - - mul_v3_fl(src_p3, vf); - mul_v3_fl(dest_p3, vf); - - add_v3_v3v3(src_p, src_p1, src_p2); - add_v3_v3v3(dest_p, dest_p1, dest_p2); - - add_v3_v3(src_p, src_p3); - add_v3_v3(dest_p, dest_p3); - - if(newdivs > divs) - printf("mem problem\n"); - - // mMovPoints.push_back(p + trinorm); - add_v3_v3v3(src_tmpvec, src_p, src_trinorm); - add_v3_v3v3(dest_tmpvec, dest_p, dest_trinorm); - - // mul_m4_v3(ob->obmat, tmpvec); // DG: use local coordinates, we save MAT anyway - copy_v3_v3(&scs->points_old[3 * (dm->getNumVerts(dm) + newdivs)], src_tmpvec); - copy_v3_v3(&scs->points[3 * (dm->getNumVerts(dm) + newdivs)], dest_tmpvec); - newdivs++; - - if(newdivs > divs) - printf("mem problem\n"); - - // mMovPoints.push_back(p - trinorm); - copy_v3_v3(src_tmpvec, src_p); - copy_v3_v3(dest_tmpvec, dest_p); - - sub_v3_v3(src_tmpvec, src_trinorm); - sub_v3_v3(dest_tmpvec, dest_trinorm); - - // mul_m4_v3(ob->obmat, tmpvec); // DG: use local coordinates, we save MAT anyway - copy_v3_v3(&scs->points_old[3 * (dm->getNumVerts(dm) + newdivs)], src_tmpvec); - copy_v3_v3(&scs->points[3 * (dm->getNumVerts(dm) + newdivs)], dest_tmpvec); - newdivs++; - } - } - - if(again == 0 && mface[i].v4) - again++; - else - again = 0; - - facecounter++; - - } while(again!=0); - } - - // scs->numpoints = dm->getNumVerts(dm) + newdivs; - -} - -/*! init triangle divisions */ -static void calcTriangleDivs(Object *ob, MVert *verts, int UNUSED(numverts), MFace *faces, int numfaces, int numtris, int **tridivs, float cell_len) -{ - // mTriangleDivs1.resize( faces.size() ); - // mTriangleDivs2.resize( faces.size() ); - // mTriangleDivs3.resize( faces.size() ); - - size_t i = 0, facecounter = 0; - float maxscale[3] = {1,1,1}; // = channelFindMaxVf(mcScale); get max scale value - float maxpart = ABS(maxscale[0]); - float scaleFac = 0; - float fsTri = 0; - if(ABS(maxscale[1])>maxpart) maxpart = ABS(maxscale[1]); - if(ABS(maxscale[2])>maxpart) maxpart = ABS(maxscale[2]); - scaleFac = 1.0 / maxpart; - // featureSize = mLevel[mMaxRefine].nodeSize - fsTri = cell_len * 0.75 * scaleFac; // fsTri = cell_len * 0.9; - - if(*tridivs) - MEM_freeN(*tridivs); - - *tridivs = MEM_callocN(sizeof(int) * numtris * 3, "Smoke_Tridivs"); - - for(i = 0, facecounter = 0; i < numfaces; i++) - { - float p0[3], p1[3], p2[3]; - float side1[3]; - float side2[3]; - float side3[3]; - int divs1=0, divs2=0, divs3=0; - - copy_v3_v3(p0, verts[faces[i].v1].co); - mul_m4_v3(ob->obmat, p0); - copy_v3_v3(p1, verts[faces[i].v2].co); - mul_m4_v3(ob->obmat, p1); - copy_v3_v3(p2, verts[faces[i].v3].co); - mul_m4_v3(ob->obmat, p2); - - sub_v3_v3v3(side1, p1, p0); - sub_v3_v3v3(side2, p2, p0); - sub_v3_v3v3(side3, p1, p2); - - if(dot_v3v3(side1, side1) > fsTri*fsTri) - { - float tmp = normalize_v3(side1); - divs1 = (int)ceil(tmp/fsTri); - } - if(dot_v3v3(side2, side2) > fsTri*fsTri) - { - float tmp = normalize_v3(side2); - divs2 = (int)ceil(tmp/fsTri); - - /* - // debug - if(i==0) - printf("b tmp: %f, fsTri: %f, divs2: %d\n", tmp, fsTri, divs2); - */ - - } - - (*tridivs)[3 * facecounter + 0] = divs1; - (*tridivs)[3 * facecounter + 1] = divs2; - (*tridivs)[3 * facecounter + 2] = divs3; - - // TODO quad case - if(faces[i].v4) - { - divs1=0, divs2=0, divs3=0; - - facecounter++; - - copy_v3_v3(p0, verts[faces[i].v3].co); - mul_m4_v3(ob->obmat, p0); - copy_v3_v3(p1, verts[faces[i].v4].co); - mul_m4_v3(ob->obmat, p1); - copy_v3_v3(p2, verts[faces[i].v1].co); - mul_m4_v3(ob->obmat, p2); - - sub_v3_v3v3(side1, p1, p0); - sub_v3_v3v3(side2, p2, p0); - sub_v3_v3v3(side3, p1, p2); - - if(dot_v3v3(side1, side1) > fsTri*fsTri) - { - float tmp = normalize_v3(side1); - divs1 = (int)ceil(tmp/fsTri); - } - if(dot_v3v3(side2, side2) > fsTri*fsTri) - { - float tmp = normalize_v3(side2); - divs2 = (int)ceil(tmp/fsTri); - } - - (*tridivs)[3 * facecounter + 0] = divs1; - (*tridivs)[3 * facecounter + 1] = divs2; - (*tridivs)[3 * facecounter + 2] = divs3; - } - facecounter++; - } -} - #endif /* WITH_SMOKE */ static void smokeModifier_freeDomain(SmokeModifierData *smd) @@ -750,14 +381,8 @@ static void smokeModifier_freeFlow(SmokeModifierData *smd) { if(smd->flow) { -/* - if(smd->flow->bvh) - { - free_bvhtree_from_mesh(smd->flow->bvh); - MEM_freeN(smd->flow->bvh); - } - smd->flow->bvh = NULL; -*/ + if (smd->flow->dm) smd->flow->dm->release(smd->flow->dm); + if (smd->flow->verts_old) MEM_freeN(smd->flow->verts_old); MEM_freeN(smd->flow); smd->flow = NULL; } @@ -769,36 +394,18 @@ static void smokeModifier_freeCollision(SmokeModifierData *smd) { SmokeCollSettings *scs = smd->coll; - if(scs->numpoints) + if(scs->numverts) { - if(scs->points) - { - MEM_freeN(scs->points); - scs->points = NULL; - } - if(scs->points_old) - { - MEM_freeN(scs->points_old); - scs->points_old = NULL; - } - if(scs->tridivs) + if(scs->verts_old) { - MEM_freeN(scs->tridivs); - scs->tridivs = NULL; + MEM_freeN(scs->verts_old); + scs->verts_old = NULL; } } - if(scs->bvhtree) - { - BLI_bvhtree_free(scs->bvhtree); - scs->bvhtree = NULL; - } - -#ifdef USE_SMOKE_COLLISION_DM if(smd->coll->dm) smd->coll->dm->release(smd->coll->dm); smd->coll->dm = NULL; -#endif MEM_freeN(smd->coll); smd->coll = NULL; @@ -833,39 +440,23 @@ void smokeModifier_reset(struct SmokeModifierData *smd) smokeModifier_reset_turbulence(smd); smd->time = -1; - - // printf("reset domain end\n"); + smd->domain->total_cells = 0; + smd->domain->active_fields = 0; } else if(smd->flow) { - /* - if(smd->flow->bvh) - { - free_bvhtree_from_mesh(smd->flow->bvh); - MEM_freeN(smd->flow->bvh); - } - smd->flow->bvh = NULL; - */ + if (smd->flow->verts_old) MEM_freeN(smd->flow->verts_old); + smd->flow->verts_old = NULL; + smd->flow->numverts = 0; } else if(smd->coll) { SmokeCollSettings *scs = smd->coll; - if(scs->numpoints && scs->points) + if(scs->numverts && scs->verts_old) { - MEM_freeN(scs->points); - scs->points = NULL; - - if(scs->points_old) - { - MEM_freeN(scs->points_old); - scs->points_old = NULL; - } - if(scs->tridivs) - { - MEM_freeN(scs->tridivs); - scs->tridivs = NULL; - } + MEM_freeN(scs->verts_old); + scs->verts_old = NULL; } } } @@ -908,8 +499,7 @@ void smokeModifier_createType(struct SmokeModifierData *smd) smd->domain->fluid_group = NULL; smd->domain->coll_group = NULL; smd->domain->maxres = 32; - smd->domain->amplify = 1; - smd->domain->omega = 1.0; + smd->domain->amplify = 1; smd->domain->alpha = -0.001; smd->domain->beta = 0.1; smd->domain->time_scale = 1.0; @@ -919,7 +509,21 @@ void smokeModifier_createType(struct SmokeModifierData *smd) smd->domain->strength = 2.0; smd->domain->noise = MOD_SMOKE_NOISEWAVE; smd->domain->diss_speed = 5; - // init 3dview buffer + smd->domain->active_fields = 0; + + smd->domain->adapt_margin = 4; + smd->domain->adapt_res = 0; + smd->domain->adapt_threshold = 0.02f; + + smd->domain->burning_rate = 0.75f; + smd->domain->flame_smoke = 1.0f; + smd->domain->flame_vorticity = 0.5f; + smd->domain->flame_ignition = 1.25f; + smd->domain->flame_max_temp = 1.75f; + /* color */ + smd->domain->flame_smoke_color[0] = 0.7f; + smd->domain->flame_smoke_color[1] = 0.7f; + smd->domain->flame_smoke_color[2] = 0.7f; smd->domain->viewsettings = MOD_SMOKE_VIEW_SHOWBIG; smd->domain->effector_weights = BKE_add_effector_weights(NULL); @@ -934,11 +538,20 @@ void smokeModifier_createType(struct SmokeModifierData *smd) smd->flow->smd = smd; /* set some standard values */ - smd->flow->density = 1.0; - smd->flow->temp = 1.0; + smd->flow->density = 1.0f; + smd->flow->fuel_amount = 1.0f; + smd->flow->temp = 1.0f; smd->flow->flags = MOD_SMOKE_FLOW_ABSOLUTE; - smd->flow->vel_multi = 1.0; + smd->flow->vel_multi = 1.0f; + smd->flow->surface_distance = 1.5f; + smd->flow->source = MOD_SMOKE_FLOW_SOURCE_MESH; + smd->flow->texture_size = 1.0f; + + smd->flow->color[0] = 0.7f; + smd->flow->color[1] = 0.7f; + smd->flow->color[2] = 0.7f; + smd->flow->dm = NULL; smd->flow->psys = NULL; } @@ -950,15 +563,10 @@ void smokeModifier_createType(struct SmokeModifierData *smd) smd->coll = MEM_callocN(sizeof(SmokeCollSettings), "SmokeColl"); smd->coll->smd = smd; - smd->coll->points = NULL; - smd->coll->points_old = NULL; - smd->coll->tridivs = NULL; - smd->coll->vel = NULL; - smd->coll->numpoints = 0; - smd->coll->numtris = 0; - smd->coll->bvhtree = NULL; + smd->coll->verts_old = NULL; + smd->coll->numverts = 0; smd->coll->type = 0; // static obstacle - smd->coll->dx = 1.0f / 50.0f; + smd->coll->dm = NULL; #ifdef USE_SMOKE_COLLISION_DM smd->coll->dm = NULL; @@ -975,32 +583,61 @@ void smokeModifier_copy(struct SmokeModifierData *smd, struct SmokeModifierData smokeModifier_createType(tsmd); if (tsmd->domain) { - tsmd->domain->maxres = smd->domain->maxres; - tsmd->domain->amplify = smd->domain->amplify; - tsmd->domain->omega = smd->domain->omega; + tsmd->domain->fluid_group = smd->domain->fluid_group; + tsmd->domain->coll_group = smd->domain->coll_group; + + tsmd->domain->adapt_margin = smd->domain->adapt_margin; + tsmd->domain->adapt_res = smd->domain->adapt_res; + tsmd->domain->adapt_threshold = smd->domain->adapt_threshold; + tsmd->domain->alpha = smd->domain->alpha; tsmd->domain->beta = smd->domain->beta; + tsmd->domain->amplify = smd->domain->amplify; + tsmd->domain->maxres = smd->domain->maxres; tsmd->domain->flags = smd->domain->flags; - tsmd->domain->strength = smd->domain->strength; + tsmd->domain->viewsettings = smd->domain->viewsettings; tsmd->domain->noise = smd->domain->noise; tsmd->domain->diss_speed = smd->domain->diss_speed; - tsmd->domain->viewsettings = smd->domain->viewsettings; - tsmd->domain->fluid_group = smd->domain->fluid_group; - tsmd->domain->coll_group = smd->domain->coll_group; + tsmd->domain->strength = smd->domain->strength; + + tsmd->domain->border_collisions = smd->domain->border_collisions; tsmd->domain->vorticity = smd->domain->vorticity; tsmd->domain->time_scale = smd->domain->time_scale; - tsmd->domain->border_collisions = smd->domain->border_collisions; + + tsmd->domain->burning_rate = smd->domain->burning_rate; + tsmd->domain->flame_smoke = smd->domain->flame_smoke; + tsmd->domain->flame_vorticity = smd->domain->flame_vorticity; + tsmd->domain->flame_ignition = smd->domain->flame_ignition; + tsmd->domain->flame_max_temp = smd->domain->flame_max_temp; + copy_v3_v3(tsmd->domain->flame_smoke_color, smd->domain->flame_smoke_color); MEM_freeN(tsmd->domain->effector_weights); tsmd->domain->effector_weights = MEM_dupallocN(smd->domain->effector_weights); } else if (tsmd->flow) { + tsmd->flow->psys = smd->flow->psys; + tsmd->flow->noise_texture = smd->flow->noise_texture; + + tsmd->flow->vel_multi = smd->flow->vel_multi; + tsmd->flow->vel_normal = smd->flow->vel_normal; + tsmd->flow->vel_random = smd->flow->vel_random; + tsmd->flow->density = smd->flow->density; + copy_v3_v3(tsmd->flow->color, smd->flow->color); + tsmd->flow->fuel_amount = smd->flow->fuel_amount; tsmd->flow->temp = smd->flow->temp; - tsmd->flow->psys = smd->flow->psys; + tsmd->flow->volume_density = smd->flow->volume_density; + tsmd->flow->surface_distance = smd->flow->surface_distance; + + tsmd->flow->texture_size = smd->flow->texture_size; + tsmd->flow->texture_offset = smd->flow->texture_offset; + BLI_strncpy(tsmd->flow->uvlayer_name, tsmd->flow->uvlayer_name, sizeof(tsmd->flow->uvlayer_name)); + tsmd->flow->vgroup_density = smd->flow->vgroup_density; + tsmd->flow->type = smd->flow->type; + tsmd->flow->source = smd->flow->source; + tsmd->flow->texture_type = smd->flow->texture_type; tsmd->flow->flags = smd->flow->flags; - tsmd->flow->vel_multi = smd->flow->vel_multi; } else if (tsmd->coll) { ; @@ -1011,7 +648,7 @@ void smokeModifier_copy(struct SmokeModifierData *smd, struct SmokeModifierData #ifdef WITH_SMOKE // forward decleration -static void smoke_calc_transparency(float *result, float *input, float *p0, float *p1, int res[3], float dx, float *light, bresenham_callback cb, float correct); +static void smoke_calc_transparency(SmokeDomainSettings *sds, Scene *scene); static float calc_voxel_transp(float *result, float *input, int res[3], int *pixel, float *tRay, float correct); static int get_lamp(Scene *scene, float *light) @@ -1038,44 +675,127 @@ static int get_lamp(Scene *scene, float *light) return found_lamp; } -static void smoke_calc_domain(Scene *UNUSED(scene), Object *UNUSED(ob), SmokeModifierData *UNUSED(smd)) +static void obstacles_from_derivedmesh(Object *coll_ob, SmokeDomainSettings *sds, SmokeCollSettings *scs, unsigned char *obstacle_map, float *velocityX, float *velocityY, float *velocityZ, float dt) { -#if 0 - SmokeDomainSettings *sds = smd->domain; - GroupObject *go = NULL; - Base *base = NULL; - - /* do collisions, needs to be done before emission, so that smoke isn't emitted inside collision cells */ - if(1) + if (!scs->dm) return; { - unsigned int i; - Object **collobjs = NULL; - unsigned int numcollobj = 0; - collobjs = get_collisionobjects(scene, ob, sds->coll_group, &numcollobj); + DerivedMesh *dm = NULL; + MVert *mvert = NULL; + MFace *mface = NULL; + BVHTreeFromMesh treeData = {0}; + int numverts, i, z; + int *res = sds->res; + + float surface_distance = 0.6; + + float *vert_vel = NULL; + int has_velocity = 0; + + tstart(); + + dm = CDDM_copy(scs->dm); + CDDM_calc_normals(dm); + mvert = dm->getVertArray(dm); + mface = dm->getTessFaceArray(dm); + numverts = dm->getNumVerts(dm); + + // DG TODO + // if(scs->type > SM_COLL_STATIC) + // if line above is used, the code is in trouble if the object moves but is declared as "does not move" - for(i = 0; i < numcollobj; i++) { - Object *collob= collobjs[i]; - SmokeModifierData *smd2 = (SmokeModifierData*)modifiers_findByType(collob, eModifierType_Smoke); - - // check for active smoke modifier - // if(md && md->mode & (eModifierMode_Realtime | eModifierMode_Render)) - // SmokeModifierData *smd2 = (SmokeModifierData *)md; + vert_vel = MEM_callocN(sizeof(float) * numverts * 3, "smoke_obs_velocity"); + + if (scs->numverts != numverts || !scs->verts_old) { + if (scs->verts_old) MEM_freeN(scs->verts_old); + + scs->verts_old = MEM_callocN(sizeof(float) * numverts * 3, "smoke_obs_verts_old"); + scs->numverts = numverts; + } + else { + has_velocity = 1; + } + } - if((smd2->type & MOD_SMOKE_TYPE_COLL) && smd2->coll && smd2->coll->points && smd2->coll->points_old) + /* Transform collider vertices to + * domain grid space for fast lookups */ + for (i = 0; i < numverts; i++) { + float n[3]; + float co[3]; + + /* vert pos */ + mul_m4_v3(coll_ob->obmat, mvert[i].co); + smoke_pos_to_cell(sds, mvert[i].co); + + /* vert normal */ + normal_short_to_float_v3(n, mvert[i].no); + mul_mat3_m4_v3(coll_ob->obmat, n); + mul_mat3_m4_v3(sds->imat, n); + normalize_v3(n); + normal_float_to_short_v3(mvert[i].no, n); + + /* vert velocity */ + VECADD(co, mvert[i].co, sds->shift); + if (has_velocity) { - // ??? anything to do here? + sub_v3_v3v3(&vert_vel[i*3], co, &scs->verts_old[i*3]); + mul_v3_fl(&vert_vel[i*3], sds->dx/dt); + } + copy_v3_v3(&scs->verts_old[i*3], co); + } + + if (bvhtree_from_mesh_faces(&treeData, dm, 0.0f, 4, 6)) { + #pragma omp parallel for schedule(static) + for (z = sds->res_min[2]; z < sds->res_max[2]; z++) { + int x,y; + for (x = sds->res_min[0]; x < sds->res_max[0]; x++) + for (y = sds->res_min[1]; y < sds->res_max[1]; y++) { + int index = smoke_get_index(x-sds->res_min[0], sds->res[0], y-sds->res_min[1], sds->res[1], z-sds->res_min[2]); + + float ray_start[3] = {(float)x + 0.5f, (float)y + 0.5f, (float)z + 0.5f}; + BVHTreeNearest nearest = {0}; + nearest.index = -1; + nearest.dist = surface_distance * surface_distance; /* find_nearest uses squared distance */ + + /* find the nearest point on the mesh */ + if (BLI_bvhtree_find_nearest(treeData.tree, ray_start, &nearest, treeData.nearest_callback, &treeData) != -1) { + float weights[4]; + int v1, v2, v3, f_index = nearest.index; + + /* calculate barycentric weights for nearest point */ + v1 = mface[f_index].v1; + v2 = (nearest.flags & BVH_ONQUAD) ? mface[f_index].v3 : mface[f_index].v2; + v3 = (nearest.flags & BVH_ONQUAD) ? mface[f_index].v4 : mface[f_index].v3; + interp_weights_face_v3(weights, mvert[v1].co, mvert[v2].co, mvert[v3].co, NULL, nearest.co); + + // DG TODO + if(has_velocity) + { + /* apply object velocity */ + { + float hit_vel[3]; + interp_v3_v3v3v3(hit_vel, &vert_vel[v1*3], &vert_vel[v2*3], &vert_vel[v3*3], weights); + velocityX[index] += hit_vel[0]; + velocityY[index] += hit_vel[1]; + velocityZ[index] += hit_vel[2]; + } + } - // TODO: only something to do for ANIMATED obstacles: need to update positions + /* tag obstacle cells */ + obstacle_map[index] = 1; + if(has_velocity) + obstacle_map[index] |= 8; + } + } } } + /* free bvh tree */ + free_bvhtree_from_mesh(&treeData); + dm->release(dm); - if(collobjs) - MEM_freeN(collobjs); + if (vert_vel) MEM_freeN(vert_vel); } - -#endif } /* Animated obstacles: dx_step = ((x_new - x_old) / totalsteps) * substep */ @@ -1092,7 +812,12 @@ static void update_obstacles(Scene *scene, Object *ob, SmokeDomainSettings *sds, float *velxOrig = smoke_get_velocity_x(sds->fluid); float *velyOrig = smoke_get_velocity_y(sds->fluid); float *velzOrig = smoke_get_velocity_z(sds->fluid); - // float *density = smoke_get_density(sds->fluid); + float *density = smoke_get_density(sds->fluid); + float *fuel = smoke_get_fuel(sds->fluid); + float *flame = smoke_get_flame(sds->fluid); + float *r = smoke_get_color_r(sds->fluid); + float *g = smoke_get_color_g(sds->fluid); + float *b = smoke_get_color_b(sds->fluid); unsigned int z; smoke_get_ob_velocity(sds->fluid, &velx, &vely, &velz); @@ -1100,15 +825,6 @@ static void update_obstacles(Scene *scene, Object *ob, SmokeDomainSettings *sds, // TODO: delete old obstacle flags for(z = 0; z < sds->res[0] * sds->res[1] * sds->res[2]; z++) { - if(obstacles[z]) - { - // density[z] = 0; - - velxOrig[z] = 0; - velyOrig[z] = 0; - velzOrig[z] = 0; - } - if(obstacles[z] & 8) // Do not delete static obstacles { obstacles[z] = 0; @@ -1119,6 +835,7 @@ static void update_obstacles(Scene *scene, Object *ob, SmokeDomainSettings *sds, velz[z] = 0; } + collobjs = get_collisionobjects(scene, ob, sds->coll_group, &numcollobj, eModifierType_Smoke); // update obstacle tags in cells @@ -1129,105 +846,799 @@ static void update_obstacles(Scene *scene, Object *ob, SmokeDomainSettings *sds, // DG TODO: check if modifier is active? - if((smd2->type & MOD_SMOKE_TYPE_COLL) && smd2->coll && smd2->coll->points && smd2->coll->points_old) + if((smd2->type & MOD_SMOKE_TYPE_COLL) && smd2->coll) { SmokeCollSettings *scs = smd2->coll; - unsigned int i; + obstacles_from_derivedmesh(collob, sds, scs, obstacles, velx, vely, velz, dt); + } + } + + if(collobjs) + MEM_freeN(collobjs); + + /* obstacle cells should not contain any velocity from the smoke simulation */ + for(z = 0; z < sds->res[0] * sds->res[1] * sds->res[2]; z++) + { + if(obstacles[z]) + { + velxOrig[z] = 0; + velyOrig[z] = 0; + velzOrig[z] = 0; + density[z] = 0; + if (fuel) { + fuel[z] = 0; + flame[z] = 0; + } + if (r) { + r[z] = 0; + g[z] = 0; + b[z] = 0; + } + } + } +} + - /* - // DG TODO: support static cobstacles, but basicly we could even support static + rigid with one set of code - if(scs->type > SM_COLL_STATIC) - */ +typedef struct EmissionMap { + float *influence; + float *velocity; + int min[3], max[3], res[3]; + int total_cells, valid; +} EmissionMap; - /* Handle collisions */ - for(i = 0; i < scs->numpoints; i++) +static void em_boundInsert(EmissionMap *em, float point[3]) +{ + int i = 0; + if (!em->valid) { + VECCOPY(em->min, point); + VECCOPY(em->max, point); + em->valid = 1; + } + else { + for (; i < 3; i++) { + if (point[i] < em->min[i]) em->min[i] = (int)floor(point[i]); + if (point[i] > em->max[i]) em->max[i] = (int)ceil(point[i]); + } + } +} + +static void clampBoundsInDomain(SmokeDomainSettings *sds, int min[3], int max[3], float *min_vel, float *max_vel, int margin, float dt) +{ + int i; + for (i=0; i<3; i++) { + int adapt = (sds->flags & MOD_SMOKE_ADAPTIVE_DOMAIN) ? sds->adapt_res : 0; + /* add margin */ + min[i] -= margin; + max[i] += margin; + + /* adapt to velocity */ + if (min_vel && min_vel[i]<0.0f) { + min[i] += (int)ceil(min_vel[i] * dt); + } + if (max_vel && max_vel[i]>0.0f) { + max[i] += (int)ceil(max_vel[i] * dt); + } + + /* clamp within domain max size */ + CLAMP(min[i], -adapt, sds->base_res[i]+adapt); + CLAMP(max[i], -adapt, sds->base_res[i]+adapt); + } +} + +static void em_allocateData(EmissionMap *em, int use_velocity) { + int i, res[3]; + + for (i=0; i<3; i++) { + res[i] = em->max[i] - em->min[i]; + if (res[i] <= 0) + return; + } + em->total_cells = res[0]*res[1]*res[2]; + copy_v3_v3_int(em->res, res); + + + em->influence = MEM_callocN(sizeof(float) * em->total_cells, "smoke_flow_influence"); + if (use_velocity) + em->velocity = MEM_callocN(sizeof(float) * em->total_cells * 3, "smoke_flow_velocity"); +} + +static void em_freeData(EmissionMap *em) { + if (em->influence) + MEM_freeN(em->influence); + if (em->velocity) + MEM_freeN(em->velocity); +} + + +static void emit_from_particles(Object *flow_ob, SmokeDomainSettings *sds, SmokeFlowSettings *sfs, EmissionMap *em, Scene *scene, float time, float dt) +{ + if(sfs && sfs->psys && sfs->psys->part && sfs->psys->part->type==PART_EMITTER) // is particle system selected + { + ParticleSimulationData sim; + ParticleSystem *psys = sfs->psys; + float *particle_pos; + float *particle_vel; + int totpart=psys->totpart, totchild; + int p = 0; + int valid_particles = 0; + + sim.scene = scene; + sim.ob = flow_ob; + sim.psys = psys; + + if(psys->part->type==PART_HAIR) + { + // TODO: PART_HAIR not supported whatsoever + totchild=0; + } + else + totchild=psys->totchild*psys->part->disp/100; + + particle_pos = MEM_callocN(sizeof(float) * (totpart+totchild) * 3, "smoke_flow_particles"); + particle_vel = MEM_callocN(sizeof(float) * (totpart+totchild) * 3, "smoke_flow_particles"); + + /* calculate local position for each particle */ + for(p=0; p<totpart+totchild; p++) + { + ParticleKey state; + float *pos; + if(p < totpart) { + if(psys->particles[p].flag & (PARS_NO_DISP|PARS_UNEXIST)) + continue; + } + else { + /* handle child particle */ + ChildParticle *cpa = &psys->child[p - totpart]; + if(psys->particles[cpa->parent].flag & (PARS_NO_DISP|PARS_UNEXIST)) + continue; + } + + state.time = time; + if(psys_get_particle_state(&sim, p, &state, 0) == 0) + continue; + + /* location */ + pos = &particle_pos[valid_particles*3]; + copy_v3_v3(pos, state.co); + smoke_pos_to_cell(sds, pos); + + /* velocity */ + copy_v3_v3(&particle_vel[valid_particles*3], state.vel); + mul_mat3_m4_v3(sds->imat, &particle_vel[valid_particles*3]); + + /* calculate emission map bounds */ + em_boundInsert(em, pos); + valid_particles++; + } + + /* set emission map */ + clampBoundsInDomain(sds, em->min, em->max, NULL, NULL, 1, dt); + em_allocateData(em, sfs->flags & MOD_SMOKE_FLOW_INITVELOCITY); + + for(p=0; p<valid_particles; p++) + { + int cell[3]; + size_t i = 0; + size_t index = 0; + int badcell = 0; + + /* 1. get corresponding cell */ + cell[0] = floor(particle_pos[p*3]) - em->min[0]; + cell[1] = floor(particle_pos[p*3+1]) - em->min[1]; + cell[2] = floor(particle_pos[p*3+2]) - em->min[2]; + /* check if cell is valid (in the domain boundary) */ + for(i = 0; i < 3; i++) { + if((cell[i] > em->res[i] - 1) || (cell[i] < 0)) { + badcell = 1; + break; + } + } + if(badcell) + continue; + /* get cell index */ + index = smoke_get_index(cell[0], em->res[0], cell[1], em->res[1], cell[2]); + /* Add influence to emission map */ + em->influence[index] = 1.0f; + /* Uses particle velocity as initial velocity for smoke */ + if(sfs->flags & MOD_SMOKE_FLOW_INITVELOCITY && (psys->part->phystype != PART_PHYS_NO)) { - // 1. get corresponding cell - int cell[3]; - float pos[3], oldpos[3], vel[3]; - float cPos[3], cOldpos[3]; /* current position in substeps */ - int badcell = 0; - size_t index; - int j; - - // translate local points into global positions - copy_v3_v3(cPos, &scs->points[3 * i]); - mul_m4_v3(scs->mat, cPos); - copy_v3_v3(pos, cPos); - - copy_v3_v3(cOldpos, &scs->points_old[3 * i]); - mul_m4_v3(scs->mat_old, cOldpos); - copy_v3_v3(oldpos, cOldpos); - - /* support for rigid bodies, armatures etc */ - { - float tmp[3]; + VECADDFAC(&em->velocity[index*3], &em->velocity[index*3], &particle_vel[p*3], sfs->vel_multi); + } + } // particles loop + + /* free data */ + if (particle_pos) + MEM_freeN(particle_pos); + if (particle_vel) + MEM_freeN(particle_vel); + } +} + +static void get_texture_value(Tex *texture, float *tex_co, TexResult *texres) +{ + int result_type; + + /* no node textures for now */ + result_type = multitex_ext_safe(texture, tex_co, texres); + + /* if the texture gave an RGB value, we assume it didn't give a valid + * intensity, since this is in the context of modifiers don't use perceptual color conversion. + * if the texture didn't give an RGB value, copy the intensity across + */ + if (result_type & TEX_RGB) { + texres->tin = (1.0f / 3.0f) * (texres->tr + texres->tg + texres->tb); + } + else { + copy_v3_fl(&texres->tr, texres->tin); + } +} - /* x_current = x_old + (x_new - x_old) * step_current / steps_total */ - float mulStep = (float)(((float)substep) / ((float)totalsteps)); +static void emit_from_derivedmesh(Object *flow_ob, SmokeDomainSettings *sds, SmokeFlowSettings *sfs, EmissionMap *em, float dt) +{ + if (!sfs->dm) return; + { + DerivedMesh *dm = sfs->dm; + int defgrp_index = sfs->vgroup_density-1; + MDeformVert *dvert = NULL; + MVert *mvert = NULL; + MVert *mvert_orig = NULL; + MFace *mface = NULL; + MTFace *tface = NULL; + BVHTreeFromMesh treeData = {0}; + int numOfVerts, i, z; + float flow_center[3] = {0}; + + float *vert_vel = NULL; + int has_velocity = 0; + + CDDM_calc_normals(dm); + mvert = dm->getVertArray(dm); + mvert_orig = dm->dupVertArray(dm); /* copy original mvert and restore when done */ + mface = dm->getTessFaceArray(dm); + numOfVerts = dm->getNumVerts(dm); + dvert = dm->getVertDataArray(dm, CD_MDEFORMVERT); + tface = CustomData_get_layer_named(&dm->faceData, CD_MTFACE, sfs->uvlayer_name); + + if (sfs->flags & MOD_SMOKE_FLOW_INITVELOCITY) { + vert_vel = MEM_callocN(sizeof(float) * numOfVerts * 3, "smoke_flow_velocity"); + + if (sfs->numverts != numOfVerts || !sfs->verts_old) { + if (sfs->verts_old) MEM_freeN(sfs->verts_old); + sfs->verts_old = MEM_callocN(sizeof(float) * numOfVerts * 3, "smoke_flow_verts_old"); + sfs->numverts = numOfVerts; + } + else { + has_velocity = 1; + } + } - sub_v3_v3v3(tmp, cPos, cOldpos); - mul_v3_fl(tmp, mulStep); - add_v3_v3(cOldpos, tmp); + /* Transform dm vertices to + * domain grid space for fast lookups */ + for (i = 0; i < numOfVerts; i++) { + float n[3]; + /* vert pos */ + mul_m4_v3(flow_ob->obmat, mvert[i].co); + smoke_pos_to_cell(sds, mvert[i].co); + /* vert normal */ + normal_short_to_float_v3(n, mvert[i].no); + mul_mat3_m4_v3(flow_ob->obmat, n); + mul_mat3_m4_v3(sds->imat, n); + normalize_v3(n); + normal_float_to_short_v3(mvert[i].no, n); + /* vert velocity */ + if (sfs->flags & MOD_SMOKE_FLOW_INITVELOCITY) { + float co[3]; + VECADD(co, mvert[i].co, sds->shift); + if (has_velocity) { + sub_v3_v3v3(&vert_vel[i*3], co, &sfs->verts_old[i*3]); + mul_v3_fl(&vert_vel[i*3], sds->dx/dt); } + copy_v3_v3(&sfs->verts_old[i*3], co); + } - sub_v3_v3v3(vel, pos, oldpos); - /* Scale velocity to incorperate the object movement during this step */ - mul_v3_fl(vel, 1.0 / (totalsteps * dt * sds->scale)); - // mul_v3_fl(vel, 1.0 / dt); + /* calculate emission map bounds */ + em_boundInsert(em, mvert[i].co); + } + mul_m4_v3(flow_ob->obmat, flow_center); + smoke_pos_to_cell(sds, flow_center); + + /* set emission map */ + clampBoundsInDomain(sds, em->min, em->max, NULL, NULL, sfs->surface_distance, dt); + em_allocateData(em, sfs->flags & MOD_SMOKE_FLOW_INITVELOCITY); + + if (bvhtree_from_mesh_faces(&treeData, dm, 0.0f, 4, 6)) { + #pragma omp parallel for schedule(static) + for (z = em->min[2]; z < em->max[2]; z++) { + int x,y; + for (x = em->min[0]; x < em->max[0]; x++) + for (y = em->min[1]; y < em->max[1]; y++) { + int index = smoke_get_index(x-em->min[0], em->res[0], y-em->min[1], em->res[1], z-em->min[2]); + + float ray_start[3] = {(float)x + 0.5f, (float)y + 0.5f, (float)z + 0.5f}; + float ray_dir[3] = {1.0f, 0.0f, 0.0f}; + + BVHTreeRayHit hit = {0}; + BVHTreeNearest nearest = {0}; + + float volume_factor = 0.0f; + float sample_str = 0.0f; + + hit.index = -1; + hit.dist = 9999; + nearest.index = -1; + nearest.dist = sfs->surface_distance * sfs->surface_distance; /* find_nearest uses squared distance */ + + /* Check volume collision */ + if (sfs->volume_density) { + if (BLI_bvhtree_ray_cast(treeData.tree, ray_start, ray_dir, 0.0f, &hit, treeData.raycast_callback, &treeData) != -1) { + float dot = ray_dir[0] * hit.no[0] + ray_dir[1] * hit.no[1] + ray_dir[2] * hit.no[2]; + /* If ray and hit face normal are facing same direction + * hit point is inside a closed mesh. */ + if (dot >= 0) { + /* Also cast a ray in opposite direction to make sure + * point is at least surrounded by two faces */ + negate_v3(ray_dir); + hit.index = -1; + hit.dist = 9999; + + BLI_bvhtree_ray_cast(treeData.tree, ray_start, ray_dir, 0.0f, &hit, treeData.raycast_callback, &treeData); + if (hit.index != -1) { + volume_factor = sfs->volume_density; + nearest.dist = hit.dist*hit.dist; + } + } + } + } - // DG TODO: cap velocity to maxVelMag (or maxvel) + /* find the nearest point on the mesh */ + if (BLI_bvhtree_find_nearest(treeData.tree, ray_start, &nearest, treeData.nearest_callback, &treeData) != -1) { + float weights[4]; + int v1, v2, v3, f_index = nearest.index; + float n1[3], n2[3], n3[3], hit_normal[3]; + + /* emit from surface based on distance */ + if (sfs->surface_distance) { + sample_str = sqrtf(nearest.dist) / sfs->surface_distance; + CLAMP(sample_str, 0.0f, 1.0f); + sample_str = pow(1.0f - sample_str, 0.5f); + } + else + sample_str = 0.0f; + + /* calculate barycentric weights for nearest point */ + v1 = mface[f_index].v1; + v2 = (nearest.flags & BVH_ONQUAD) ? mface[f_index].v3 : mface[f_index].v2; + v3 = (nearest.flags & BVH_ONQUAD) ? mface[f_index].v4 : mface[f_index].v3; + interp_weights_face_v3(weights, mvert[v1].co, mvert[v2].co, mvert[v3].co, NULL, nearest.co); + + if(sfs->flags & MOD_SMOKE_FLOW_INITVELOCITY) { + /* apply normal directional velocity */ + if (sfs->vel_normal) { + /* interpolate vertex normal vectors to get nearest point normal */ + normal_short_to_float_v3(n1, mvert[v1].no); + normal_short_to_float_v3(n2, mvert[v2].no); + normal_short_to_float_v3(n3, mvert[v3].no); + interp_v3_v3v3v3(hit_normal, n1, n2, n3, weights); + normalize_v3(hit_normal); + /* apply normal directional and random velocity + * - TODO: random disabled for now since it doesnt really work well as pressure calc smoothens it out... */ + em->velocity[index*3] += hit_normal[0]*sfs->vel_normal * 0.25f; + em->velocity[index*3+1] += hit_normal[1]*sfs->vel_normal * 0.25f; + em->velocity[index*3+2] += hit_normal[2]*sfs->vel_normal * 0.25f; + /* TODO: for fire emitted from mesh surface we can use + * Vf = Vs + (Ps/Pf - 1)*S to model gaseous expansion from solid to fuel */ + } + /* apply object velocity */ + if (has_velocity && sfs->vel_multi) { + float hit_vel[3]; + interp_v3_v3v3v3(hit_vel, &vert_vel[v1*3], &vert_vel[v2*3], &vert_vel[v3*3], weights); + em->velocity[index*3] += hit_vel[0] * sfs->vel_multi; + em->velocity[index*3+1] += hit_vel[1] * sfs->vel_multi; + em->velocity[index*3+2] += hit_vel[2] * sfs->vel_multi; + } + } - // oldpos + velocity * dt = newpos - get_cell(sds->p0, sds->res, sds->dx*sds->scale, cOldpos /* use current position here instead of "pos" */, cell, 0); + /* apply vertex group influence if used */ + if (defgrp_index >= 0 && dvert) { + float weight_mask = defvert_find_weight(&dvert[v1], defgrp_index) * weights[0] + + defvert_find_weight(&dvert[v2], defgrp_index) * weights[1] + + defvert_find_weight(&dvert[v3], defgrp_index) * weights[2]; + sample_str *= weight_mask; + } - // check if cell is valid (in the domain boundary) - for(j = 0; j < 3; j++) - if((cell[j] > sds->res[j] - 1) || (cell[j] < 0)) - { - badcell = 1; - break; + /* apply emission texture */ + if ((sfs->flags & MOD_SMOKE_FLOW_TEXTUREEMIT) && sfs->noise_texture) { + float tex_co[3] = {0}; + TexResult texres; + + if (sfs->texture_type == MOD_SMOKE_FLOW_TEXTURE_MAP_AUTO) { + tex_co[0] = ((float)(x - flow_center[0]) / sds->base_res[0]) / sfs->texture_size; + tex_co[1] = ((float)(y - flow_center[1]) / sds->base_res[1]) / sfs->texture_size; + tex_co[2] = ((float)(z - flow_center[2]) / sds->base_res[2] - sfs->texture_offset) / sfs->texture_size; + } + else if (tface) { + interp_v2_v2v2v2(tex_co, tface[f_index].uv[0], tface[f_index].uv[(nearest.flags & BVH_ONQUAD) ? 2 : 1], + tface[f_index].uv[(nearest.flags & BVH_ONQUAD) ? 3 : 2], weights); + /* map between -1.0f and 1.0f */ + tex_co[0] = tex_co[0] * 2.0f - 1.0f; + tex_co[1] = tex_co[1] * 2.0f - 1.0f; + tex_co[2] = sfs->texture_offset; + } + texres.nor = NULL; + get_texture_value(sfs->noise_texture, tex_co, &texres); + sample_str *= texres.tin; + } } - - if(badcell) - continue; - // 2. set cell values (heat, density and velocity) - index = smoke_get_index(cell[0], sds->res[0], cell[1], sds->res[1], cell[2]); + /* multiply initial velocity by emitter influence */ + if(sfs->flags & MOD_SMOKE_FLOW_INITVELOCITY) { + mul_v3_fl(&em->velocity[index*3], sample_str); + } - // Don't overwrite existing obstacles - if(obstacles[index]) - continue; - - // printf("cell[0]: %d, cell[1]: %d, cell[2]: %d\n", cell[0], cell[1], cell[2]); - // printf("res[0]: %d, res[1]: %d, res[2]: %d, index: %d\n\n", sds->res[0], sds->res[1], sds->res[2], index); - obstacles[index] = 1 | 8 /* ANIMATED */; + /* apply final influence based on volume factor */ + em->influence[index] = MAX2(volume_factor, sample_str); + } + } + } + /* free bvh tree */ + free_bvhtree_from_mesh(&treeData); + /* restore original mverts */ + CustomData_set_layer(&dm->vertData, CD_MVERT, mvert_orig); + if (mvert) + MEM_freeN(mvert); + + if (vert_vel) MEM_freeN(vert_vel); + } +} - if(len_v3(vel) > FLT_EPSILON) - { - // Collision object is moving +static void adjustDomainResolution(SmokeDomainSettings *sds, int new_shift[3], EmissionMap *emaps, unsigned int numflowobj, float dt) +{ + int min[3]={32767,32767,32767}, max[3]={-32767,-32767,-32767}, res[3]; + int total_cells = 1, res_changed = 0, shift_changed = 0; + float min_vel[3], max_vel[3]; + int x,y,z, i; + float *density = smoke_get_density(sds->fluid); + float *fuel = smoke_get_fuel(sds->fluid); + float *vx = smoke_get_velocity_x(sds->fluid); + float *vy = smoke_get_velocity_y(sds->fluid); + float *vz = smoke_get_velocity_z(sds->fluid); + + INIT_MINMAX(min_vel, max_vel); + + /* Calculate bounds for current domain content */ + for(x = sds->res_min[0]; x < sds->res_max[0]; x++) + for(y = sds->res_min[1]; y < sds->res_max[1]; y++) + for(z = sds->res_min[2]; z < sds->res_max[2]; z++) + { + int xn = x-new_shift[0]; + int yn = y-new_shift[1]; + int zn = z-new_shift[2]; + int index = smoke_get_index(x-sds->res_min[0], sds->res[0], y-sds->res_min[1], sds->res[1], z-sds->res_min[2]); + float max_den = (fuel) ? MAX2(density[index], fuel[index]) : density[index]; + + /* content bounds (use shifted coordinates) */ + if (max_den >= sds->adapt_threshold) { + if (min[0] > xn) min[0] = xn; + if (min[1] > yn) min[1] = yn; + if (min[2] > zn) min[2] = zn; + if (max[0] < xn) max[0] = xn; + if (max[1] < yn) max[1] = yn; + if (max[2] < zn) max[2] = zn; + } + /* velocity bounds */ + if (min_vel[0] > vx[index]) min_vel[0] = vx[index]; + if (min_vel[1] > vy[index]) min_vel[1] = vy[index]; + if (min_vel[2] > vz[index]) min_vel[2] = vz[index]; + if (max_vel[0] < vx[index]) max_vel[0] = vx[index]; + if (max_vel[1] < vy[index]) max_vel[1] = vy[index]; + if (max_vel[2] < vz[index]) max_vel[2] = vz[index]; + } - velx[index] = vel[0]; // use "+="? - vely[index] = vel[1]; - velz[index] = vel[2]; + /* also apply emission maps */ + for(i = 0; i < numflowobj; i++) + { + EmissionMap *em = &emaps[i]; + + for(x = em->min[0]; x < em->max[0]; x++) + for(y = em->min[1]; y < em->max[1]; y++) + for(z = em->min[2]; z < em->max[2]; z++) + { + int index = smoke_get_index(x-em->min[0], em->res[0], y-em->min[1], em->res[1], z-em->min[2]); + float max_den = em->influence[index]; + + /* density bounds */ + if (max_den >= sds->adapt_threshold) { + if (min[0] > x) min[0] = x; + if (min[1] > y) min[1] = y; + if (min[2] > z) min[2] = z; + if (max[0] < x) max[0] = x; + if (max[1] < y) max[1] = y; + if (max[2] < z) max[2] = z; + } + /* velocity bounds */ + if (em->velocity) { + if (min_vel[0] > em->velocity[index*3]) min_vel[0] = em->velocity[index*3]; + if (min_vel[1] > em->velocity[index*3+1]) min_vel[1] = em->velocity[index*3+1]; + if (min_vel[2] > em->velocity[index*3+2]) min_vel[2] = em->velocity[index*3+2]; + if (max_vel[0] < em->velocity[index*3]) max_vel[0] = em->velocity[index*3]; + if (max_vel[1] < em->velocity[index*3+1]) max_vel[1] = em->velocity[index*3+1]; + if (max_vel[2] < em->velocity[index*3+2]) max_vel[2] = em->velocity[index*3+2]; + } } + } + + /* calculate new bounds based on these values */ + clampBoundsInDomain(sds, min, max, min_vel, max_vel, sds->adapt_margin+1, dt); + + for (i=0; i<3; i++) { + /* calculate new resolution */ + res[i] = max[i] - min[i]; + total_cells *= res[i]; + + if (new_shift[i]) + shift_changed = 1; + + /* if no content set minimum dimensions */ + if (res[i] <= 0) { + int j; + for (j=0; j<3; j++) { + min[j] = 0; + max[j] = 1; + res[j] = 1; } + res_changed = 1; + total_cells = 1; + break; } + if (min[i] != sds->res_min[i] || max[i] != sds->res_max[i]) + res_changed = 1; } - if(collobjs) - MEM_freeN(collobjs); + if (res_changed || shift_changed) { + struct FLUID_3D *fluid_old = sds->fluid; + struct WTURBULENCE *turb_old = sds->wt; + /* allocate new fluid data */ + smoke_reallocate_fluid(sds, sds->dx, res, 0); + if(sds->flags & MOD_SMOKE_HIGHRES) { + smoke_reallocate_highres_fluid(sds, sds->dx, res, 0); + } + + /* copy values from old fluid to new */ + if (sds->total_cells>1 && total_cells>1) { + /* low res smoke */ + float *o_dens, *o_react, *o_flame, *o_fuel, *o_heat, *o_heatold, *o_vx, *o_vy, *o_vz, *o_r, *o_g, *o_b; + float *n_dens, *n_react, *n_flame, *n_fuel, *n_heat, *n_heatold, *n_vx, *n_vy, *n_vz, *n_r, *n_g, *n_b; + float dummy; + unsigned char *dummy_p; + /* high res smoke */ + int wt_res_old[3]; + float *o_wt_dens, *o_wt_react, *o_wt_flame, *o_wt_fuel, *o_wt_tcu, *o_wt_tcv, *o_wt_tcw, *o_wt_r, *o_wt_g, *o_wt_b; + float *n_wt_dens, *n_wt_react, *n_wt_flame, *n_wt_fuel, *n_wt_tcu, *n_wt_tcv, *n_wt_tcw, *n_wt_r, *n_wt_g, *n_wt_b; + + smoke_export(fluid_old, &dummy, &dummy, &o_dens, &o_react, &o_flame, &o_fuel, &o_heat, &o_heatold, &o_vx, &o_vy, &o_vz, &o_r, &o_g, &o_b, &dummy_p); + smoke_export(sds->fluid, &dummy, &dummy, &n_dens, &n_react, &n_flame, &n_fuel, &n_heat, &n_heatold, &n_vx, &n_vy, &n_vz, &n_r, &n_g, &n_b, &dummy_p); + + if(sds->flags & MOD_SMOKE_HIGHRES) { + smoke_turbulence_export(turb_old, &o_wt_dens, &o_wt_react, &o_wt_flame, &o_wt_fuel, &o_wt_r, &o_wt_g, &o_wt_b, &o_wt_tcu, &o_wt_tcv, &o_wt_tcw); + smoke_turbulence_get_res(turb_old, wt_res_old); + smoke_turbulence_export(sds->wt, &n_wt_dens, &n_wt_react, &n_wt_flame, &n_wt_fuel, &n_wt_r, &n_wt_g, &n_wt_b, &n_wt_tcu, &n_wt_tcv, &n_wt_tcw); + } + + + for(x = sds->res_min[0]; x < sds->res_max[0]; x++) + for(y = sds->res_min[1]; y < sds->res_max[1]; y++) + for(z = sds->res_min[2]; z < sds->res_max[2]; z++) + { + /* old grid index */ + int xo = x-sds->res_min[0]; + int yo = y-sds->res_min[1]; + int zo = z-sds->res_min[2]; + int index_old = smoke_get_index(xo, sds->res[0], yo, sds->res[1], zo); + /* new grid index */ + int xn = x-min[0]-new_shift[0]; + int yn = y-min[1]-new_shift[1]; + int zn = z-min[2]-new_shift[2]; + int index_new = smoke_get_index(xn, res[0], yn, res[1], zn); + + /* skip if outside new domain */ + if (xn<0 || xn>=res[0] || + yn<0 || yn>=res[1] || + zn<0 || zn>=res[2]) + continue; + + /* copy data */ + n_dens[index_new] = o_dens[index_old]; + /* heat */ + if (n_heat && o_heat) { + n_heat[index_new] = o_heat[index_old]; + n_heatold[index_new] = o_heatold[index_old]; + } + /* fuel */ + if (n_fuel && o_fuel) { + n_flame[index_new] = o_flame[index_old]; + n_fuel[index_new] = o_fuel[index_old]; + n_react[index_new] = o_react[index_old]; + } + /* color */ + if (o_r && n_r) { + n_r[index_new] = o_r[index_old]; + n_g[index_new] = o_g[index_old]; + n_b[index_new] = o_b[index_old]; + } + n_vx[index_new] = o_vx[index_old]; + n_vy[index_new] = o_vy[index_old]; + n_vz[index_new] = o_vz[index_old]; + + if(sds->flags & MOD_SMOKE_HIGHRES && turb_old) { + int block_size = sds->amplify + 1; + int i,j,k; + /* old grid index */ + int xx_o = xo*block_size; + int yy_o = yo*block_size; + int zz_o = zo*block_size; + /* new grid index */ + int xx_n = xn*block_size; + int yy_n = yn*block_size; + int zz_n = zn*block_size; + + n_wt_tcu[index_new] = o_wt_tcu[index_old]; + n_wt_tcv[index_new] = o_wt_tcv[index_old]; + n_wt_tcw[index_new] = o_wt_tcw[index_old]; + + for(i = 0; i < block_size; i++) + for(j = 0; j < block_size; j++) + for(k = 0; k < block_size; k++) + { + int big_index_old = smoke_get_index(xx_o+i, wt_res_old[0], yy_o+j, wt_res_old[1], zz_o+k); + int big_index_new = smoke_get_index(xx_n+i, sds->res_wt[0], yy_n+j, sds->res_wt[1], zz_n+k); + /* copy data */ + n_wt_dens[big_index_new] = o_wt_dens[big_index_old]; + if (n_wt_flame && o_wt_flame) { + n_wt_flame[big_index_new] = o_wt_flame[big_index_old]; + n_wt_fuel[big_index_new] = o_wt_fuel[big_index_old]; + n_wt_react[big_index_new] = o_wt_react[big_index_old]; + } + if (n_wt_r && o_wt_r) { + n_wt_r[big_index_new] = o_wt_r[big_index_old]; + n_wt_g[big_index_new] = o_wt_g[big_index_old]; + n_wt_b[big_index_new] = o_wt_b[big_index_old]; + } + } + } + } + } + smoke_free(fluid_old); + if (turb_old) + smoke_turbulence_free(turb_old); + + /* set new domain dimensions */ + VECCOPY(sds->res_min, min); + VECCOPY(sds->res_max, max); + VECCOPY(sds->res, res); + sds->total_cells = total_cells; + } +} + +BLI_INLINE void apply_outflow_fields(int index, float *density, float *heat, float *fuel, float *react, float *color_r, float *color_g, float *color_b) +{ + density[index] = 0.f; + if (heat) { + heat[index] = 0.f; + } + if (fuel) { + fuel[index] = 0.f; + react[index] = 0.f; + } + if (color_r) { + color_r[index] = 0.f; + color_g[index] = 0.f; + color_b[index] = 0.f; + } +} + +BLI_INLINE void apply_inflow_fields(SmokeFlowSettings *sfs, float emission_value, int index, float *density, float *heat, float *fuel, float *react, float *color_r, float *color_g, float *color_b) +{ + int absolute_flow = (sfs->flags & MOD_SMOKE_FLOW_ABSOLUTE); + float dens_old = density[index]; + float fuel_old = (fuel) ? fuel[index] : 0.0f; + float dens_flow = (sfs->type == MOD_SMOKE_FLOW_TYPE_FIRE) ? 0.0f : emission_value * sfs->density; + float fuel_flow = emission_value * sfs->fuel_amount; + /* add heat */ + if (heat) { + heat[index] = MAX2(emission_value*sfs->temp, heat[index]); + } + /* absolute */ + if (absolute_flow) { + if (sfs->type != MOD_SMOKE_FLOW_TYPE_FIRE) { + if (dens_flow > density[index]) + density[index] = dens_flow; + } + if (sfs->type != MOD_SMOKE_FLOW_TYPE_SMOKE && fuel && fuel_flow) { + if (fuel_flow > fuel[index]) + fuel[index] = fuel_flow; + } + } + /* additive */ + else { + if (sfs->type != MOD_SMOKE_FLOW_TYPE_FIRE) { + density[index] += dens_flow; + CLAMP(density[index], 0.0f, 1.0f); + } + if (sfs->type != MOD_SMOKE_FLOW_TYPE_SMOKE && fuel && sfs->fuel_amount) { + fuel[index] += fuel_flow; + CLAMP(fuel[index], 0.0f, 10.0f); + } + } + + /* set color */ + if (color_r && dens_flow) { + float total_dens = density[index]/(dens_old+dens_flow); + color_r[index] = (color_r[index] + sfs->color[0] * dens_flow) * total_dens; + color_g[index] = (color_g[index] + sfs->color[1] * dens_flow) * total_dens; + color_b[index] = (color_b[index] + sfs->color[2] * dens_flow) * total_dens; + } + + /* set fire reaction coordinate */ + if (fuel && fuel[index]) { + /* instead of using 1.0 for all new fuel add slight falloff + * to reduce flow blockiness */ + float value = 1.0f - pow(1.0f - emission_value, 2.0f); + + if (value > react[index]) { + float f = fuel_flow / fuel[index]; + react[index] = value*f + (1.0f - f)*react[index]; + } + } } -static void update_flowsfluids(Scene *scene, Object *ob, SmokeDomainSettings *sds, float time) +static void update_flowsfluids(Scene *scene, Object *ob, SmokeDomainSettings *sds, float time, float dt) { Object **flowobjs = NULL; + EmissionMap *emaps = NULL; unsigned int numflowobj = 0; unsigned int flowIndex; + int new_shift[3] = {0}; + int active_fields = sds->active_fields; + + /* calculate domain shift for current frame if using adaptive domain */ + if (sds->flags & MOD_SMOKE_ADAPTIVE_DOMAIN) { + int total_shift[3]; + float frame_shift_f[3]; + float ob_loc[3] = {0}; + + mul_m4_v3(ob->obmat, ob_loc); + + VECSUB(frame_shift_f, ob_loc, sds->prev_loc); + copy_v3_v3(sds->prev_loc, ob_loc); + /* convert global space shift to local "cell" space */ + mul_mat3_m4_v3(sds->imat, frame_shift_f); + frame_shift_f[0] = frame_shift_f[0]/sds->cell_size[0]; + frame_shift_f[1] = frame_shift_f[1]/sds->cell_size[1]; + frame_shift_f[2] = frame_shift_f[2]/sds->cell_size[2]; + /* add to total shift */ + VECADD(sds->shift_f, sds->shift_f, frame_shift_f); + /* convert to integer */ + total_shift[0] = floor(sds->shift_f[0]); + total_shift[1] = floor(sds->shift_f[1]); + total_shift[2] = floor(sds->shift_f[2]); + VECSUB(new_shift, total_shift, sds->shift); + copy_v3_v3_int(sds->shift, total_shift); + + /* calculate new domain boundary points so that smoke doesnt slide on sub-cell movement */ + sds->p0[0] = sds->dp0[0] - sds->cell_size[0]*(sds->shift_f[0]-total_shift[0] - 0.5f); + sds->p0[1] = sds->dp0[1] - sds->cell_size[1]*(sds->shift_f[1]-total_shift[1] - 0.5f); + sds->p0[2] = sds->dp0[2] - sds->cell_size[2]*(sds->shift_f[2]-total_shift[2] - 0.5f); + sds->p1[0] = sds->p0[0] + sds->cell_size[0]*sds->base_res[0]; + sds->p1[1] = sds->p0[1] + sds->cell_size[1]*sds->base_res[1]; + sds->p1[2] = sds->p0[2] + sds->cell_size[2]*sds->base_res[2]; + } flowobjs = get_collisionobjects(scene, ob, sds->fluid_group, &numflowobj, eModifierType_Smoke); - // update obstacle tags in cells + /* init emission maps for each flow */ + emaps = MEM_callocN(sizeof(struct EmissionMap) * numflowobj, "smoke_flow_maps"); + + /* Prepare flow emission maps */ for(flowIndex = 0; flowIndex < numflowobj; flowIndex++) { Object *collob= flowobjs[flowIndex]; @@ -1238,289 +1649,249 @@ static void update_flowsfluids(Scene *scene, Object *ob, SmokeDomainSettings *sd { // we got nice flow object SmokeFlowSettings *sfs = smd2->flow; + EmissionMap *em = &emaps[flowIndex]; - if(sfs && sfs->psys && sfs->psys->part && sfs->psys->part->type==PART_EMITTER) // is particle system selected - { - ParticleSimulationData sim; - ParticleSystem *psys = sfs->psys; - int totpart=psys->totpart, totchild; - int p = 0; - float *density = smoke_get_density(sds->fluid); - float *bigdensity = smoke_turbulence_get_density(sds->wt); - float *heat = smoke_get_heat(sds->fluid); - float *velocity_x = smoke_get_velocity_x(sds->fluid); - float *velocity_y = smoke_get_velocity_y(sds->fluid); - float *velocity_z = smoke_get_velocity_z(sds->fluid); - unsigned char *obstacle = smoke_get_obstacle(sds->fluid); - // DG TODO UNUSED unsigned char *obstacleAnim = smoke_get_obstacle_anim(sds->fluid); - int bigres[3]; - short absolute_flow = (sfs->flags & MOD_SMOKE_FLOW_ABSOLUTE); - short high_emission_smoothing = bigdensity ? (sds->flags & MOD_SMOKE_HIGH_SMOOTH) : 0; - - /* - * A temporary volume map used to store whole emissive - * area to be added to smoke density and interpolated - * for high resolution smoke. - */ - float *temp_emission_map = NULL; - - sim.scene = scene; - sim.ob = collob; - sim.psys = psys; - - // initialize temp emission map - if(!(sfs->type & MOD_SMOKE_FLOW_TYPE_OUTFLOW)) - { - int i; - temp_emission_map = MEM_callocN(sizeof(float) * sds->res[0]*sds->res[1]*sds->res[2], "SmokeTempEmission"); - // set whole volume to 0.0f - for (i=0; i<sds->res[0]*sds->res[1]*sds->res[2]; i++) { - temp_emission_map[i] = 0.0f; - } - } - - // mostly copied from particle code - if(psys->part->type==PART_HAIR) - { - /* - if(psys->childcache) - { - totchild = psys->totchildcache; - } - else - */ + if (sfs->source == MOD_SMOKE_FLOW_SOURCE_PARTICLES) { + emit_from_particles(collob, sds, sfs, em, scene, time, dt); + } + else { + emit_from_derivedmesh(collob, sds, sfs, em, dt); + } - // TODO: PART_HAIR not supported whatsoever - totchild=0; + /* update required data fields */ + if (em->total_cells && sfs->type != MOD_SMOKE_FLOW_TYPE_OUTFLOW) { + /* activate heat field if flow produces any heat */ + if (sfs->temp) { + active_fields |= SM_ACTIVE_HEAT; } - else - totchild=psys->totchild*psys->part->disp/100; - - for(p=0; p<totpart+totchild; p++) - { - int cell[3]; - size_t i = 0; - size_t index = 0; - int badcell = 0; - ParticleKey state; - - if(p < totpart) - { - if(psys->particles[p].flag & (PARS_NO_DISP|PARS_UNEXIST)) - continue; - } - else { - /* handle child particle */ - ChildParticle *cpa = &psys->child[p - totpart]; - - if(psys->particles[cpa->parent].flag & (PARS_NO_DISP|PARS_UNEXIST)) - continue; + /* activate fuel field if flow adds any fuel */ + if (sfs->type != MOD_SMOKE_FLOW_TYPE_SMOKE && sfs->fuel_amount) { + active_fields |= SM_ACTIVE_FIRE; + } + /* activate color field if flows add smoke with varying colors */ + if (sfs->type != MOD_SMOKE_FLOW_TYPE_FIRE && sfs->density) { + if (!(active_fields & SM_ACTIVE_COLOR_SET)) { + copy_v3_v3(sds->active_color, sfs->color); + active_fields |= SM_ACTIVE_COLOR_SET; } - - state.time = time; - if(psys_get_particle_state(&sim, p, &state, 0) == 0) - continue; - - // copy_v3_v3(pos, pa->state.co); - // mul_m4_v3(ob->imat, pos); - // 1. get corresponding cell - get_cell(sds->p0, sds->res, sds->dx*sds->scale, state.co, cell, 0); - // check if cell is valid (in the domain boundary) - for(i = 0; i < 3; i++) - { - if((cell[i] > sds->res[i] - 1) || (cell[i] < 0)) - { - badcell = 1; - break; - } - } - if(badcell) - continue; - // 2. set cell values (heat, density and velocity) - index = smoke_get_index(cell[0], sds->res[0], cell[1], sds->res[1], cell[2]); - if(!(sfs->type & MOD_SMOKE_FLOW_TYPE_OUTFLOW) && !(obstacle[index])) // this is inflow - { - // heat[index] += sfs->temp * 0.1; - // density[index] += sfs->density * 0.1; - heat[index] = sfs->temp; - - // Add emitter density to temp emission map - temp_emission_map[index] = sfs->density; - - // Uses particle velocity as initial velocity for smoke - if(sfs->flags & MOD_SMOKE_FLOW_INITVELOCITY && (psys->part->phystype != PART_PHYS_NO)) - { - velocity_x[index] = state.vel[0]*sfs->vel_multi; - velocity_y[index] = state.vel[1]*sfs->vel_multi; - velocity_z[index] = state.vel[2]*sfs->vel_multi; - } - } - else if(sfs->type & MOD_SMOKE_FLOW_TYPE_OUTFLOW) // outflow - { - heat[index] = 0.f; - density[index] = 0.f; - velocity_x[index] = 0.f; - velocity_y[index] = 0.f; - velocity_z[index] = 0.f; - // we need different handling for the high-res feature - if(bigdensity) - { - // init all surrounding cells according to amplification, too - int i, j, k; - smoke_turbulence_get_res(sds->wt, bigres); - - for(i = 0; i < sds->amplify + 1; i++) - for(j = 0; j < sds->amplify + 1; j++) - for(k = 0; k < sds->amplify + 1; k++) - { - index = smoke_get_index((sds->amplify + 1)* cell[0] + i, bigres[0], (sds->amplify + 1)* cell[1] + j, bigres[1], (sds->amplify + 1)* cell[2] + k); - bigdensity[index] = 0.f; - } - } + else if (!equals_v3v3(sds->active_color, sfs->color)) { + active_fields |= SM_ACTIVE_COLORS; } - } // particles loop + } + } + } + } - // apply emission values - if(!(sfs->type & MOD_SMOKE_FLOW_TYPE_OUTFLOW)) - { - // initialize variables - int ii, jj, kk, x, y, z, block_size; - size_t index, index_big; + /* monitor active fields based on domain settings */ + /* if domain has fire, activate new fields if required */ + if (active_fields & SM_ACTIVE_FIRE) { + /* heat is always needed for fire */ + active_fields |= SM_ACTIVE_HEAT; + /* also activate colors if domain smoke color differs from active color */ + if (!(active_fields & SM_ACTIVE_COLOR_SET)) { + copy_v3_v3(sds->active_color, sds->flame_smoke_color); + active_fields |= SM_ACTIVE_COLOR_SET; + } + else if (!equals_v3v3(sds->active_color, sds->flame_smoke_color)) { + active_fields |= SM_ACTIVE_COLORS; + } + } - smoke_turbulence_get_res(sds->wt, bigres); - block_size = sds->amplify + 1; // high res block size + /* Adjust domain size if needed */ + if (sds->flags & MOD_SMOKE_ADAPTIVE_DOMAIN) { + adjustDomainResolution(sds, new_shift, emaps, numflowobj, dt); + } - // loop through every low res cell - for(x = 0; x < sds->res[0]; x++) - for(y = 0; y < sds->res[1]; y++) - for(z = 0; z < sds->res[2]; z++) - { - // neighbor cell emission densities (for high resolution smoke smooth interpolation) - float c000, c001, c010, c011, c100, c101, c110, c111; + /* Initialize new data fields if any */ + if (active_fields & SM_ACTIVE_HEAT) { + smoke_ensure_heat(sds->fluid); + } + if (active_fields & SM_ACTIVE_FIRE) { + smoke_ensure_fire(sds->fluid, sds->wt); + } + if (active_fields & SM_ACTIVE_COLORS) { + /* initialize all smoke with "active_color" */ + smoke_ensure_colors(sds->fluid, sds->wt, sds->active_color[0], sds->active_color[1], sds->active_color[2]); + } + sds->active_fields = active_fields; - c000 = (x>0 && y>0 && z>0) ? temp_emission_map[smoke_get_index(x-1, sds->res[0], y-1, sds->res[1], z-1)] : 0; - c001 = (x>0 && y>0) ? temp_emission_map[smoke_get_index(x-1, sds->res[0], y-1, sds->res[1], z)] : 0; - c010 = (x>0 && z>0) ? temp_emission_map[smoke_get_index(x-1, sds->res[0], y, sds->res[1], z-1)] : 0; - c011 = (x>0) ? temp_emission_map[smoke_get_index(x-1, sds->res[0], y, sds->res[1], z)] : 0; + /* Apply emission data */ + if (sds->fluid) { + for(flowIndex = 0; flowIndex < numflowobj; flowIndex++) + { + Object *collob= flowobjs[flowIndex]; + SmokeModifierData *smd2 = (SmokeModifierData*)modifiers_findByType(collob, eModifierType_Smoke); - c100 = (y>0 && z>0) ? temp_emission_map[smoke_get_index(x, sds->res[0], y-1, sds->res[1], z-1)] : 0; - c101 = (y>0) ? temp_emission_map[smoke_get_index(x, sds->res[0], y-1, sds->res[1], z)] : 0; - c110 = (z>0) ? temp_emission_map[smoke_get_index(x, sds->res[0], y, sds->res[1], z-1)] : 0; - c111 = temp_emission_map[smoke_get_index(x, sds->res[0], y, sds->res[1], z)]; // this cell + // check for initialized smoke object + if((smd2->type & MOD_SMOKE_TYPE_FLOW) && smd2->flow) + { + // we got nice flow object + SmokeFlowSettings *sfs = smd2->flow; + EmissionMap *em = &emaps[flowIndex]; + + float *density = smoke_get_density(sds->fluid); + float *color_r = smoke_get_color_r(sds->fluid); + float *color_g = smoke_get_color_g(sds->fluid); + float *color_b = smoke_get_color_b(sds->fluid); + float *fuel = smoke_get_fuel(sds->fluid); + float *react = smoke_get_react(sds->fluid); + float *bigdensity = smoke_turbulence_get_density(sds->wt); + float *bigfuel = smoke_turbulence_get_fuel(sds->wt); + float *bigreact = smoke_turbulence_get_react(sds->wt); + float *bigcolor_r = smoke_turbulence_get_color_r(sds->wt); + float *bigcolor_g = smoke_turbulence_get_color_g(sds->wt); + float *bigcolor_b = smoke_turbulence_get_color_b(sds->wt); + float *heat = smoke_get_heat(sds->fluid); + float *velocity_x = smoke_get_velocity_x(sds->fluid); + float *velocity_y = smoke_get_velocity_y(sds->fluid); + float *velocity_z = smoke_get_velocity_z(sds->fluid); + //unsigned char *obstacle = smoke_get_obstacle(sds->fluid); + // DG TODO UNUSED unsigned char *obstacleAnim = smoke_get_obstacle_anim(sds->fluid); + int bigres[3]; + short high_emission_smoothing = (sds->flags & MOD_SMOKE_HIGH_SMOOTH); + float *velocity_map = em->velocity; + float *emission_map = em->influence; - // get cell index - index = smoke_get_index(x, sds->res[0], y, sds->res[1], z); + int ii, jj, kk, gx, gy, gz, ex, ey, ez, dx, dy, dz, block_size; + size_t e_index, d_index, index_big; - // add emission to low resolution density - if (absolute_flow) - { - if (temp_emission_map[index]>0) - density[index] = temp_emission_map[index]; + // loop through every emission map cell + for(gx = em->min[0]; gx < em->max[0]; gx++) + for(gy = em->min[1]; gy < em->max[1]; gy++) + for(gz = em->min[2]; gz < em->max[2]; gz++) + { + /* get emission map index */ + ex = gx-em->min[0]; + ey = gy-em->min[1]; + ez = gz-em->min[2]; + e_index = smoke_get_index(ex, em->res[0], ey, em->res[1], ez); + if (!emission_map[e_index]) continue; + /* get domain index */ + dx = gx-sds->res_min[0]; + dy = gy-sds->res_min[1]; + dz = gz-sds->res_min[2]; + d_index = smoke_get_index(dx, sds->res[0], dy, sds->res[1], dz); + + if(sfs->type == MOD_SMOKE_FLOW_TYPE_OUTFLOW) { // outflow + apply_outflow_fields(d_index, density, heat, fuel, react, color_r, color_g, color_b); + } + else { // inflow + apply_inflow_fields(sfs, emission_map[e_index], d_index, density, heat, fuel, react, color_r, color_g, color_b); + + /* initial velocity */ + if(sfs->flags & MOD_SMOKE_FLOW_INITVELOCITY) { + velocity_x[d_index] = ADD_IF_LOWER(velocity_x[d_index], velocity_map[e_index*3]); + velocity_y[d_index] = ADD_IF_LOWER(velocity_y[d_index], velocity_map[e_index*3+1]); + velocity_z[d_index] = ADD_IF_LOWER(velocity_z[d_index], velocity_map[e_index*3+2]); } - else - { - density[index] += temp_emission_map[index]; + } - if (density[index]>1) - density[index]=1.0f; - } + /* loop through high res blocks if high res enabled */ + if (bigdensity) { + // neighbor cell emission densities (for high resolution smoke smooth interpolation) + float c000, c001, c010, c011, c100, c101, c110, c111; smoke_turbulence_get_res(sds->wt, bigres); + block_size = sds->amplify + 1; // high res block size - /* loop through high res blocks if high res enabled */ - if (bigdensity) - for(ii = 0; ii < block_size; ii++) - for(jj = 0; jj < block_size; jj++) - for(kk = 0; kk < block_size; kk++) - { + c000 = (ex>0 && ey>0 && ez>0) ? emission_map[smoke_get_index(ex-1, em->res[0], ey-1, em->res[1], ez-1)] : 0; + c001 = (ex>0 && ey>0) ? emission_map[smoke_get_index(ex-1, em->res[0], ey-1, em->res[1], ez)] : 0; + c010 = (ex>0 && ez>0) ? emission_map[smoke_get_index(ex-1, em->res[0], ey, em->res[1], ez-1)] : 0; + c011 = (ex>0) ? emission_map[smoke_get_index(ex-1, em->res[0], ey, em->res[1], ez)] : 0; - float fx,fy,fz, interpolated_value; - int shift_x, shift_y, shift_z; - - - /* - * Do volume interpolation if emitter smoothing - * is enabled - */ - if (high_emission_smoothing) - { - // convert block position to relative - // for interpolation smoothing - fx = (float)ii/block_size + 0.5f/block_size; - fy = (float)jj/block_size + 0.5f/block_size; - fz = (float)kk/block_size + 0.5f/block_size; - - // calculate trilinear interpolation - interpolated_value = c000 * (1-fx) * (1-fy) * (1-fz) + - c100 * fx * (1-fy) * (1-fz) + - c010 * (1-fx) * fy * (1-fz) + - c001 * (1-fx) * (1-fy) * fz + - c101 * fx * (1-fy) * fz + - c011 * (1-fx) * fy * fz + - c110 * fx * fy * (1-fz) + - c111 * fx * fy * fz; - - - // add some contrast / sharpness - // depending on hi-res block size - - interpolated_value = (interpolated_value-0.4f*sfs->density)*(block_size/2) + 0.4f*sfs->density; - if (interpolated_value<0.0f) interpolated_value = 0.0f; - if (interpolated_value>1.0f) interpolated_value = 1.0f; - - // shift smoke block index - // (because pixel center is actually - // in halfway of the low res block) - shift_x = (x < 1) ? 0 : block_size/2; - shift_y = (y < 1) ? 0 : block_size/2; - shift_z = (z < 1) ? 0 : block_size/2; - } - else - { - // without interpolation use same low resolution - // block value for all hi-res blocks - interpolated_value = c111; - shift_x = 0; - shift_y = 0; - shift_z = 0; - } - - // get shifted index for current high resolution block - index_big = smoke_get_index(block_size * x + ii - shift_x, bigres[0], block_size * y + jj - shift_y, bigres[1], block_size * z + kk - shift_z); - - // add emission data to high resolution density - if (absolute_flow) - { - if (interpolated_value > 0) - bigdensity[index_big] = interpolated_value; - } - else - { - bigdensity[index_big] += interpolated_value; + c100 = (ey>0 && ez>0) ? emission_map[smoke_get_index(ex, em->res[0], ey-1, em->res[1], ez-1)] : 0; + c101 = (ey>0) ? emission_map[smoke_get_index(ex, em->res[0], ey-1, em->res[1], ez)] : 0; + c110 = (ez>0) ? emission_map[smoke_get_index(ex, em->res[0], ey, em->res[1], ez-1)] : 0; + c111 = emission_map[smoke_get_index(ex, em->res[0], ey, em->res[1], ez)]; // this cell - if (bigdensity[index_big]>1) - bigdensity[index_big]=1.0f; - } - } // end of hires loop + for(ii = 0; ii < block_size; ii++) + for(jj = 0; jj < block_size; jj++) + for(kk = 0; kk < block_size; kk++) + { - } // end of low res loop + float fx,fy,fz, interpolated_value; + int shift_x, shift_y, shift_z; - // free temporary emission map - if (temp_emission_map) - MEM_freeN(temp_emission_map); - } // end emission - } + /* + * Do volume interpolation if emitter smoothing + * is enabled + */ + if (high_emission_smoothing) + { + /* get relative block position + * for interpolation smoothing */ + fx = (float)ii/block_size + 0.5f/block_size; + fy = (float)jj/block_size + 0.5f/block_size; + fz = (float)kk/block_size + 0.5f/block_size; + + /* calculate trilinear interpolation */ + interpolated_value = c000 * (1-fx) * (1-fy) * (1-fz) + + c100 * fx * (1-fy) * (1-fz) + + c010 * (1-fx) * fy * (1-fz) + + c001 * (1-fx) * (1-fy) * fz + + c101 * fx * (1-fy) * fz + + c011 * (1-fx) * fy * fz + + c110 * fx * fy * (1-fz) + + c111 * fx * fy * fz; + + + /* add some contrast / sharpness + * depending on hi-res block size */ + interpolated_value = (interpolated_value-0.4f)*(block_size/2) + 0.4f; + CLAMP(interpolated_value, 0.0f, 1.0f); + + /* shift smoke block index + * (because pixel center is actually + * in halfway of the low res block) */ + shift_x = (dx < 1) ? 0 : block_size/2; + shift_y = (dy < 1) ? 0 : block_size/2; + shift_z = (dz < 1) ? 0 : block_size/2; + } + else + { + /* without interpolation use same low resolution + * block value for all hi-res blocks */ + interpolated_value = c111; + shift_x = 0; + shift_y = 0; + shift_z = 0; + } + + /* get shifted index for current high resolution block */ + index_big = smoke_get_index(block_size * dx + ii - shift_x, bigres[0], block_size * dy + jj - shift_y, bigres[1], block_size * dz + kk - shift_z); + + if(sfs->type == MOD_SMOKE_FLOW_TYPE_OUTFLOW) { // outflow + if (interpolated_value) { + apply_outflow_fields(index_big, bigdensity, NULL, bigfuel, bigreact, bigcolor_r, bigcolor_g, bigcolor_b); + } + } + else { // inflow + apply_inflow_fields(sfs, interpolated_value, index_big, bigdensity, NULL, bigfuel, bigreact, bigcolor_r, bigcolor_g, bigcolor_b); + } + } // hires loop + } // bigdensity + } // low res loop + + // free emission maps + em_freeData(em); + + } // end emission } } if(flowobjs) MEM_freeN(flowobjs); + if(emaps) + MEM_freeN(emaps); } static void update_effectors(Scene *scene, Object *ob, SmokeDomainSettings *sds, float UNUSED(dt)) { - ListBase *effectors = pdInitEffectors(scene, ob, NULL, sds->effector_weights); + ListBase *effectors; + /* make sure smoke flow influence is 0.0f */ + sds->effector_weights->weight[PFIELD_SMOKEFLOW] = 0.0f; + effectors = pdInitEffectors(scene, ob, NULL, sds->effector_weights); if(effectors) { @@ -1532,76 +1903,110 @@ static void update_effectors(Scene *scene, Object *ob, SmokeDomainSettings *sds, float *velocity_y = smoke_get_velocity_y(sds->fluid); float *velocity_z = smoke_get_velocity_z(sds->fluid); unsigned char *obstacle = smoke_get_obstacle(sds->fluid); - int x, y, z; + int x; // precalculate wind forces + #pragma omp parallel for schedule(static) for(x = 0; x < sds->res[0]; x++) + { + int y, z; for(y = 0; y < sds->res[1]; y++) for(z = 0; z < sds->res[2]; z++) - { - EffectedPoint epoint; - float voxelCenter[3] = {0,0,0}, vel[3] = {0,0,0}, retvel[3] = {0,0,0}; - unsigned int index = smoke_get_index(x, sds->res[0], y, sds->res[1], z); - - if((density[index] < FLT_EPSILON) || obstacle[index]) - continue; - - vel[0] = velocity_x[index]; - vel[1] = velocity_y[index]; - vel[2] = velocity_z[index]; - - voxelCenter[0] = sds->p0[0] + sds->dx * sds->scale * x + sds->dx * sds->scale * 0.5; - voxelCenter[1] = sds->p0[1] + sds->dx * sds->scale * y + sds->dx * sds->scale * 0.5; - voxelCenter[2] = sds->p0[2] + sds->dx * sds->scale * z + sds->dx * sds->scale * 0.5; - - pd_point_from_loc(scene, voxelCenter, vel, index, &epoint); - pdDoEffectors(effectors, NULL, sds->effector_weights, &epoint, retvel, NULL); - - // TODO dg - do in force! - force_x[index] = MIN2(MAX2(-1.0, retvel[0] * 0.2), 1.0); - force_y[index] = MIN2(MAX2(-1.0, retvel[1] * 0.2), 1.0); - force_z[index] = MIN2(MAX2(-1.0, retvel[2] * 0.2), 1.0); + { + EffectedPoint epoint; + float mag; + float voxelCenter[3] = {0,0,0}, vel[3] = {0,0,0}, retvel[3] = {0,0,0}; + unsigned int index = smoke_get_index(x, sds->res[0], y, sds->res[1], z); + + if((density[index] < FLT_EPSILON) || obstacle[index]) + continue; + + vel[0] = velocity_x[index]; + vel[1] = velocity_y[index]; + vel[2] = velocity_z[index]; + + /* convert vel to global space */ + mag = len_v3(vel); + mul_mat3_m4_v3(sds->obmat, vel); + normalize_v3(vel); + mul_v3_fl(vel, mag); + + voxelCenter[0] = sds->p0[0] + sds->cell_size[0] * ((float)(x+sds->res_min[0]) + 0.5f); + voxelCenter[1] = sds->p0[1] + sds->cell_size[1] * ((float)(y+sds->res_min[1]) + 0.5f); + voxelCenter[2] = sds->p0[2] + sds->cell_size[2] * ((float)(z+sds->res_min[2]) + 0.5f); + mul_m4_v3(sds->obmat, voxelCenter); + + pd_point_from_loc(scene, voxelCenter, vel, index, &epoint); + pdDoEffectors(effectors, NULL, sds->effector_weights, &epoint, retvel, NULL); + + /* convert retvel to local space */ + mag = len_v3(retvel); + mul_mat3_m4_v3(sds->imat, retvel); + normalize_v3(retvel); + mul_v3_fl(retvel, mag); + + // TODO dg - do in force! + force_x[index] = MIN2(MAX2(-1.0, retvel[0] * 0.2), 1.0); + force_y[index] = MIN2(MAX2(-1.0, retvel[1] * 0.2), 1.0); + force_z[index] = MIN2(MAX2(-1.0, retvel[2] * 0.2), 1.0); + } } } pdEndEffectors(&effectors); } -static void step(Scene *scene, Object *ob, SmokeModifierData *smd, float fps) +static void step(Scene *scene, Object *ob, SmokeModifierData *smd, DerivedMesh *domain_dm, float fps) { + SmokeDomainSettings *sds = smd->domain; /* stability values copied from wturbulence.cpp */ const int maxSubSteps = 25; float maxVel; // maxVel should be 1.5 (1.5 cell max movement) * dx (cell size) - float dt = DT_DEFAULT; + float dt; float maxVelMag = 0.0f; int totalSubsteps; int substep = 0; float dtSubdiv; - - SmokeDomainSettings *sds = smd->domain; + float gravity[3] = {0.0f, 0.0f, -1.0f}; + float gravity_mag; /* get max velocity and lower the dt value if it is too high */ - size_t size= sds->res[0] * sds->res[1] * sds->res[2]; - + size_t size = sds->res[0] * sds->res[1] * sds->res[2]; float *velX = smoke_get_velocity_x(sds->fluid); float *velY = smoke_get_velocity_y(sds->fluid); float *velZ = smoke_get_velocity_z(sds->fluid); size_t i; - /* adapt timestep for different framerates, dt = 0.1 is at 25fps */ - dt *= (25.0f / fps); + /* update object state */ + invert_m4_m4(sds->imat, ob->obmat); + copy_m4_m4(sds->obmat, ob->obmat); + smoke_set_domain_from_derivedmesh(sds, ob, domain_dm); + + /* use global gravity if enabled */ + if (scene->physics_settings.flag & PHYS_GLOBAL_GRAVITY) { + copy_v3_v3(gravity, scene->physics_settings.gravity); + /* map default value to 1.0 */ + mul_v3_fl(gravity, 1.0f/9.810f); + } + /* convert gravity to domain space */ + gravity_mag = len_v3(gravity); + mul_mat3_m4_v3(sds->imat, gravity); + normalize_v3(gravity); + mul_v3_fl(gravity, gravity_mag); + /* adapt timestep for different framerates, dt = 0.1 is at 25fps */ + dt = DT_DEFAULT * (25.0f / fps); // maximum timestep/"CFL" constraint: dt < 5.0 *dx / maxVel maxVel = (sds->dx * 5.0); - for(i = 0; i < size; i++) + /*for(i = 0; i < size; i++) { float vtemp = (velX[i]*velX[i]+velY[i]*velY[i]+velZ[i]*velZ[i]); if(vtemp > maxVelMag) maxVelMag = vtemp; - } + }*/ maxVelMag = sqrt(maxVelMag) * dt * sds->time_scale; totalSubsteps = (int)((maxVelMag / maxVel) + 1.0f); /* always round up */ @@ -1618,35 +2023,116 @@ static void step(Scene *scene, Object *ob, SmokeModifierData *smd, float fps) for(substep = 0; substep < totalSubsteps; substep++) { // calc animated obstacle velocities + update_flowsfluids(scene, ob, sds, smd->time, dtSubdiv); update_obstacles(scene, ob, sds, dtSubdiv, substep, totalSubsteps); - update_flowsfluids(scene, ob, sds, smd->time); - update_effectors(scene, ob, sds, dtSubdiv); // DG TODO? problem --> uses forces instead of velocity, need to check how they need to be changed with variable dt - - smoke_step(sds->fluid, dtSubdiv); - // move animated obstacle: Done in update_obstacles() */ + if (sds->total_cells > 1) { + update_effectors(scene, ob, sds, dtSubdiv); // DG TODO? problem --> uses forces instead of velocity, need to check how they need to be changed with variable dt + smoke_step(sds->fluid, gravity, dtSubdiv); + } + } +} - // where to delete old obstacles from array? Done in update_obstacles() */ +static DerivedMesh *createDomainGeometry(SmokeDomainSettings *sds, Object *ob) +{ + DerivedMesh *result; + MVert *mverts; + MPoly *mpolys; + MLoop *mloops; + float min[3]; + float max[3]; + float *co; + MPoly *mp; + MLoop *ml; + + int num_verts = 8; + int num_faces = 6; + int i; + float ob_loc[3] = {0}; + float ob_cache_loc[3] = {0}; + + /* dont generate any mesh if there isnt any content */ + if (sds->total_cells <= 1) { + num_verts = 0; + num_faces = 0; + } + + result = CDDM_new(num_verts, 0, 0, num_faces * 4, num_faces); + mverts = CDDM_get_verts(result); + mpolys = CDDM_get_polys(result); + mloops = CDDM_get_loops(result); + + + if (num_verts) { + /* volume bounds */ + VECMADD(min, sds->p0, sds->cell_size, sds->res_min); + VECMADD(max, sds->p0, sds->cell_size, sds->res_max); + + /* set vertices */ + /* top slab */ + co = mverts[0].co; co[0] = min[0]; co[1] = min[1]; co[2] = max[2]; + co = mverts[1].co; co[0] = max[0]; co[1] = min[1]; co[2] = max[2]; + co = mverts[2].co; co[0] = max[0]; co[1] = max[1]; co[2] = max[2]; + co = mverts[3].co; co[0] = min[0]; co[1] = max[1]; co[2] = max[2]; + /* bottom slab */ + co = mverts[4].co; co[0] = min[0]; co[1] = min[1]; co[2] = min[2]; + co = mverts[5].co; co[0] = max[0]; co[1] = min[1]; co[2] = min[2]; + co = mverts[6].co; co[0] = max[0]; co[1] = max[1]; co[2] = min[2]; + co = mverts[7].co; co[0] = min[0]; co[1] = max[1]; co[2] = min[2]; + + /* create faces */ + /* top */ + mp = &mpolys[0]; ml = &mloops[0 * 4]; mp->loopstart = 0 * 4; mp->totloop = 4; + ml[0].v = 0; ml[1].v = 1; ml[2].v = 2; ml[3].v = 3; + /* right */ + mp = &mpolys[1]; ml = &mloops[1 * 4]; mp->loopstart = 1 * 4; mp->totloop = 4; + ml[0].v = 2; ml[1].v = 1; ml[2].v = 5; ml[3].v = 6; + /* bottom */ + mp = &mpolys[2]; ml = &mloops[2 * 4]; mp->loopstart = 2 * 4; mp->totloop = 4; + ml[0].v = 7; ml[1].v = 6; ml[2].v = 5; ml[3].v = 4; + /* left */ + mp = &mpolys[3]; ml = &mloops[3 * 4]; mp->loopstart = 3 * 4; mp->totloop = 4; + ml[0].v = 0; ml[1].v = 3; ml[2].v = 7; ml[3].v = 4; + /* front */ + mp = &mpolys[4]; ml = &mloops[4 * 4]; mp->loopstart = 4 * 4; mp->totloop = 4; + ml[0].v = 3; ml[1].v = 2; ml[2].v = 6; ml[3].v = 7; + /* back */ + mp = &mpolys[5]; ml = &mloops[5 * 4]; mp->loopstart = 5 * 4; mp->totloop = 4; + ml[0].v = 1; ml[1].v = 0; ml[2].v = 4; ml[3].v = 5; + + /* calculate required shift to match domain's global position + * it was originally simulated at (if object moves without smoke step) */ + invert_m4_m4(ob->imat, ob->obmat); + mul_m4_v3(ob->obmat, ob_loc); + mul_m4_v3(sds->obmat, ob_cache_loc); + VECSUB(sds->obj_shift_f, ob_cache_loc, ob_loc); + /* convert shift to local space and apply to vertices */ + mul_mat3_m4_v3(ob->imat, sds->obj_shift_f); + /* apply */ + for (i=0; i<num_verts; i++) { + add_v3_v3(mverts[i].co, sds->obj_shift_f); + } } + + + CDDM_calc_edges(result); + return result; } -void smokeModifier_do(SmokeModifierData *smd, Scene *scene, Object *ob, DerivedMesh *dm) +void smokeModifier_process(SmokeModifierData *smd, Scene *scene, Object *ob, DerivedMesh *dm) { if((smd->type & MOD_SMOKE_TYPE_FLOW)) { if(scene->r.cfra >= smd->time) smokeModifier_init(smd, ob, scene, dm); + if (smd->flow->dm) smd->flow->dm->release(smd->flow->dm); + smd->flow->dm = CDDM_copy(dm); + DM_ensure_tessface(smd->flow->dm); + if(scene->r.cfra > smd->time) { - // XXX TODO smd->time = scene->r.cfra; - - // rigid movement support - /* - copy_m4_m4(smd->flow->mat_old, smd->flow->mat); - copy_m4_m4(smd->flow->mat, ob->obmat); - */ } else if(scene->r.cfra < smd->time) { @@ -1656,99 +2142,27 @@ void smokeModifier_do(SmokeModifierData *smd, Scene *scene, Object *ob, DerivedM } else if(smd->type & MOD_SMOKE_TYPE_COLL) { - /* Check if domain resolution changed */ - /* DG TODO: can this be solved more elegant using dependancy graph? */ - { - SmokeCollSettings *scs = smd->coll; - Base *base = scene->base.first; - int changed = 0; - float dx = FLT_MAX; - float scale = 1.0f; - int haveDomain = 0; - - for ( ; base; base = base->next) - { - SmokeModifierData *smd2 = (SmokeModifierData *)modifiers_findByType(base->object, eModifierType_Smoke); - - if (smd2 && (smd2->type & MOD_SMOKE_TYPE_DOMAIN) && smd2->domain) - { - SmokeDomainSettings *sds = smd2->domain; - - if(sds->dx * sds->scale < dx) - { - dx = sds->dx; - scale = sds->scale; - changed = 1; - } - - haveDomain = 1; - } - } - - if(!haveDomain) - return; - - if(changed) - { - if(dx*scale != scs->dx) - { - scs->dx = dx*scale; - smokeModifier_reset(smd); - } - } - } - if(scene->r.cfra >= smd->time) smokeModifier_init(smd, ob, scene, dm); - if(scene->r.cfra > smd->time) + if(smd->coll) { - unsigned int i; - SmokeCollSettings *scs = smd->coll; - float *points_old = scs->points_old; - float *points = scs->points; - unsigned int numpoints = scs->numpoints; - - // XXX TODO <-- DG: what is TODO here? - smd->time = scene->r.cfra; - - // rigid movement support - copy_m4_m4(scs->mat_old, scs->mat); - copy_m4_m4(scs->mat, ob->obmat); - - if(scs->type != SM_COLL_ANIMATED) // if(not_animated) - { - // nothing to do, "mat" is already up to date - } - else - { - // XXX TODO: need to update positions + divs + if (smd->coll->dm) + smd->coll->dm->release(smd->coll->dm); - if(scs->numverts != dm->getNumVerts(dm)) - { - // DG TODO: reset modifier? - return; - } - - for(i = 0; i < numpoints * 3; i++) - { - points_old[i] = points[i]; - } - - DM_ensure_tessface(dm); - fill_scs_points_anim(ob, dm, scs); - } + smd->coll->dm = CDDM_copy(dm); + DM_ensure_tessface(smd->coll->dm); } - else if(scene->r.cfra < smd->time) + + smd->time = scene->r.cfra; + if(scene->r.cfra < smd->time) { - smd->time = scene->r.cfra; smokeModifier_reset(smd); } } else if(smd->type & MOD_SMOKE_TYPE_DOMAIN) { SmokeDomainSettings *sds = smd->domain; - float light[3]; PointCache *cache = NULL; PTCacheID pid; int startframe, endframe, framenr; @@ -1765,6 +2179,7 @@ void smokeModifier_do(SmokeModifierData *smd, Scene *scene, Object *ob, DerivedM if(!smd->domain->fluid || framenr == startframe) { BKE_ptcache_id_reset(scene, &pid, PTCACHE_RESET_OUTDATED); + smokeModifier_reset(smd); BKE_ptcache_validate(cache, framenr); cache->flag &= ~PTCACHE_REDO_NEEDED; } @@ -1773,15 +2188,12 @@ void smokeModifier_do(SmokeModifierData *smd, Scene *scene, Object *ob, DerivedM return; smd->domain->flags &= ~MOD_SMOKE_FILE_LOAD; - CLAMP(framenr, startframe, endframe); /* If already viewing a pre/after frame, no need to reload */ if ((smd->time == framenr) && (framenr != scene->r.cfra)) return; - // printf("startframe: %d, framenr: %d\n", startframe, framenr); - if(smokeModifier_init(smd, ob, scene, dm)==0) { printf("bad smokeModifier_init\n"); @@ -1805,15 +2217,12 @@ void smokeModifier_do(SmokeModifierData *smd, Scene *scene, Object *ob, DerivedM tstart(); - smoke_calc_domain(scene, ob, smd); - /* if on second frame, write cache for first frame */ if((int)smd->time == startframe && (cache->flag & PTCACHE_OUTDATED || cache->last_exact==0)) { // create shadows straight after domain initialization so we get nice shadows for startframe, too - if(get_lamp(scene, light)) - smoke_calc_transparency(sds->shadow, smoke_get_density(sds->fluid), sds->p0, sds->p1, sds->res, sds->dx, light, calc_voxel_transp, -7.0*sds->dx); + smoke_calc_transparency(sds, scene); - if(sds->wt) + if(sds->wt && sds->total_cells>1) { if(sds->flags & MOD_SMOKE_DISSOLVE) smoke_dissolve_wavelet(sds->wt, sds->diss_speed, sds->flags & MOD_SMOKE_DISSOLVE_LOG); @@ -1828,8 +2237,6 @@ void smokeModifier_do(SmokeModifierData *smd, Scene *scene, Object *ob, DerivedM /* do simulation */ - // low res - // simulate the actual smoke (c++ code in intern/smoke) // DG: interesting commenting this line + deactivating loading of noise files if(framenr!=startframe) @@ -1837,12 +2244,11 @@ void smokeModifier_do(SmokeModifierData *smd, Scene *scene, Object *ob, DerivedM if(sds->flags & MOD_SMOKE_DISSOLVE) smoke_dissolve(sds->fluid, sds->diss_speed, sds->flags & MOD_SMOKE_DISSOLVE_LOG); - step(scene, ob, smd, scene->r.frs_sec / scene->r.frs_sec_base); + step(scene, ob, smd, dm, scene->r.frs_sec / scene->r.frs_sec_base); } // create shadows before writing cache so they get stored - if(get_lamp(scene, light)) - smoke_calc_transparency(sds->shadow, smoke_get_density(sds->fluid), sds->p0, sds->p1, sds->res, sds->dx, light, calc_voxel_transp, -7.0*sds->dx); + smoke_calc_transparency(sds, scene); if(sds->wt) { @@ -1860,6 +2266,20 @@ void smokeModifier_do(SmokeModifierData *smd, Scene *scene, Object *ob, DerivedM } } +struct DerivedMesh *smokeModifier_do(SmokeModifierData *smd, Scene *scene, Object *ob, DerivedMesh *dm) +{ + smokeModifier_process(smd, scene, ob, dm); + + /* return generated geometry for adaptive domain */ + if(smd->type & MOD_SMOKE_TYPE_DOMAIN && smd->domain && + smd->domain->flags & MOD_SMOKE_ADAPTIVE_DOMAIN && + smd->domain->base_res[0]) + { + return createDomainGeometry(smd->domain, ob); + } + else return CDDM_copy(dm); +} + static float calc_voxel_transp(float *result, float *input, int res[3], int *pixel, float *tRay, float correct) { const size_t index = smoke_get_index(pixel[0], res[0], pixel[1], res[1], pixel[2]); @@ -1876,24 +2296,6 @@ static float calc_voxel_transp(float *result, float *input, int res[3], int *pix return *tRay; } -long long smoke_get_mem_req(int xres, int yres, int zres, int amplify) -{ - int totalCells = xres * yres * zres; - int amplifiedCells = totalCells * amplify * amplify * amplify; - - // print out memory requirements - long long int coarseSize = sizeof(float) * totalCells * 22 + - sizeof(unsigned char) * totalCells; - - long long int fineSize = sizeof(float) * amplifiedCells * 7 + // big grids - sizeof(float) * totalCells * 8 + // small grids - sizeof(float) * 128 * 128 * 128; // noise tile - - long long int totalMB = (coarseSize + fineSize) / (1024 * 1024); - - return totalMB; -} - static void bresenham_linie_3D(int x1, int y1, int z1, int x2, int y2, int z2, float *tRay, bresenham_callback cb, float *result, float *input, int res[3], float correct) { int dx, dy, dz, i, l, m, n, x_inc, y_inc, z_inc, err_1, err_2, dx2, dy2, dz2; @@ -1977,80 +2379,142 @@ static void bresenham_linie_3D(int x1, int y1, int z1, int x2, int y2, int z2, f cb(result, input, res, pixel, tRay, correct); } -static void get_cell(const float p0[3], const int res[3], float dx, const float pos[3], int cell[3], int correct) +static void smoke_calc_transparency(SmokeDomainSettings *sds, Scene *scene) { - float tmp[3]; - - sub_v3_v3v3(tmp, pos, p0); - mul_v3_fl(tmp, 1.0 / dx); + float bv[6] = {0}; + float light[3]; + int a, z, slabsize=sds->res[0]*sds->res[1], size= sds->res[0]*sds->res[1]*sds->res[2]; + float *density = smoke_get_density(sds->fluid); + float correct = -7.0*sds->dx; - if (correct) { - cell[0] = MIN2(res[0] - 1, MAX2(0, (int)floor(tmp[0]))); - cell[1] = MIN2(res[1] - 1, MAX2(0, (int)floor(tmp[1]))); - cell[2] = MIN2(res[2] - 1, MAX2(0, (int)floor(tmp[2]))); - } - else { - cell[0] = (int)floor(tmp[0]); - cell[1] = (int)floor(tmp[1]); - cell[2] = (int)floor(tmp[2]); - } -} + if (!get_lamp(scene, light)) return; -static void smoke_calc_transparency(float *result, float *input, float *p0, float *p1, int res[3], float dx, float *light, bresenham_callback cb, float correct) -{ - float bv[6]; - int a, z, slabsize=res[0]*res[1], size= res[0]*res[1]*res[2]; + /* convert light pos to sim cell space */ + mul_m4_v3(sds->imat, light); + light[0] = (light[0] - sds->p0[0]) / sds->cell_size[0] - 0.5f; + light[1] = (light[1] - sds->p0[1]) / sds->cell_size[1] - 0.5f; + light[2] = (light[2] - sds->p0[2]) / sds->cell_size[2] - 0.5f; for(a=0; a<size; a++) - result[a]= -1.0f; + sds->shadow[a]= -1.0f; - bv[0] = p0[0]; - bv[1] = p1[0]; - // y - bv[2] = p0[1]; - bv[3] = p1[1]; - // z - bv[4] = p0[2]; - bv[5] = p1[2]; + /* calculate domain bounds in sim cell space */ + // 0,2,4 = 0.0f + bv[1] = (float)sds->res[0]; // x + bv[3] = (float)sds->res[1]; // y + bv[5] = (float)sds->res[2]; // z // #pragma omp parallel for schedule(static,1) - for(z = 0; z < res[2]; z++) + for(z = 0; z < sds->res[2]; z++) { size_t index = z*slabsize; int x,y; - for(y = 0; y < res[1]; y++) - for(x = 0; x < res[0]; x++, index++) + for(y = 0; y < sds->res[1]; y++) + for(x = 0; x < sds->res[0]; x++, index++) { float voxelCenter[3]; float pos[3]; int cell[3]; float tRay = 1.0; - if(result[index] >= 0.0f) + if(sds->shadow[index] >= 0.0f) continue; - voxelCenter[0] = p0[0] + dx * x + dx * 0.5; - voxelCenter[1] = p0[1] + dx * y + dx * 0.5; - voxelCenter[2] = p0[2] + dx * z + dx * 0.5; + voxelCenter[0] = (float)x; + voxelCenter[1] = (float)y; + voxelCenter[2] = (float)z; - // get starting position (in voxel coords) + // get starting cell (light pos) if(BLI_bvhtree_bb_raycast(bv, light, voxelCenter, pos) > FLT_EPSILON) { - // we're ouside - get_cell(p0, res, dx, pos, cell, 1); + // we're ouside -> use point on side of domain + cell[0] = (int)floor(pos[0]); + cell[1] = (int)floor(pos[1]); + cell[2] = (int)floor(pos[2]); } else { - // we're inside - get_cell(p0, res, dx, light, cell, 1); + // we're inside -> use light itself + cell[0] = (int)floor(light[0]); + cell[1] = (int)floor(light[1]); + cell[2] = (int)floor(light[2]); } + /* clamp within grid bounds */ + CLAMP(cell[0], 0, sds->res[0]-1); + CLAMP(cell[1], 0, sds->res[1]-1); + CLAMP(cell[2], 0, sds->res[2]-1); - bresenham_linie_3D(cell[0], cell[1], cell[2], x, y, z, &tRay, cb, result, input, res, correct); + bresenham_linie_3D(cell[0], cell[1], cell[2], x, y, z, &tRay, calc_voxel_transp, sds->shadow, density, sds->res, correct); // convention -> from a RGBA float array, use G value for tRay // #pragma omp critical - result[index] = tRay; + sds->shadow[index] = tRay; } } } +/* get smoke velocity and density at given coordinates +* returns fluid density or -1.0f if outside domain*/ +float smoke_get_velocity_at(struct Object *ob, float position[3], float velocity[3]) +{ + SmokeModifierData *smd = (SmokeModifierData*)modifiers_findByType(ob, eModifierType_Smoke); + zero_v3(velocity); + + if(smd && (smd->type & MOD_SMOKE_TYPE_DOMAIN) && smd->domain && smd->domain->fluid) { + SmokeDomainSettings *sds = smd->domain; + float time_mult = 25.f * DT_DEFAULT; + float vel_mag; + float *velX = smoke_get_velocity_x(sds->fluid); + float *velY = smoke_get_velocity_y(sds->fluid); + float *velZ = smoke_get_velocity_z(sds->fluid); + float density = 0.0f, fuel = 0.0f; + float pos[3]; + copy_v3_v3(pos, position); + smoke_pos_to_cell(sds, pos); + + /* check if point is outside domain max bounds */ + if (pos[0] < sds->res_min[0] || pos[1] < sds->res_min[1] || pos[2] < sds->res_min[2]) return -1.0f; + if (pos[0] > sds->res_max[0] || pos[1] > sds->res_max[1] || pos[2] > sds->res_max[2]) return -1.0f; + + /* map pos between 0.0 - 1.0 */ + pos[0] = (pos[0] - sds->res_min[0]) / ((float)sds->res[0]); + pos[1] = (pos[1] - sds->res_min[1]) / ((float)sds->res[1]); + pos[2] = (pos[2] - sds->res_min[2]) / ((float)sds->res[2]); + + + /* check if point is outside active area */ + if (smd->domain->flags & MOD_SMOKE_ADAPTIVE_DOMAIN) { + if (pos[0] < 0.0f || pos[1] < 0.0f || pos[2] < 0.0f) return 0.0f; + if (pos[0] > 1.0f || pos[1] > 1.0f || pos[2] > 1.0f) return 0.0f; + } + + /* get interpolated velocity */ + velocity[0] = BLI_voxel_sample_trilinear(velX, sds->res, pos) * sds->global_size[0] * time_mult; + velocity[1] = BLI_voxel_sample_trilinear(velY, sds->res, pos) * sds->global_size[1] * time_mult; + velocity[2] = BLI_voxel_sample_trilinear(velZ, sds->res, pos) * sds->global_size[2] * time_mult; + + /* convert velocity direction to global space */ + vel_mag = len_v3(velocity); + mul_mat3_m4_v3(sds->obmat, velocity); + normalize_v3(velocity); + mul_v3_fl(velocity, vel_mag); + + /* use max value of fuel or smoke density */ + density = BLI_voxel_sample_trilinear(smoke_get_density(sds->fluid), sds->res, pos); + if (smoke_has_fuel(sds->fluid)) { + fuel = BLI_voxel_sample_trilinear(smoke_get_fuel(sds->fluid), sds->res, pos); + } + return MAX2(density, fuel); + } + return -1.0f; +} + +int smoke_get_data_flags(SmokeDomainSettings *sds) { + int flags = 0; + if (smoke_has_heat(sds->fluid)) flags |= SM_ACTIVE_HEAT; + if (smoke_has_fuel(sds->fluid)) flags |= SM_ACTIVE_FIRE; + if (smoke_has_colors(sds->fluid)) flags |= SM_ACTIVE_COLORS; + + return flags; +} + #endif /* WITH_SMOKE */ diff --git a/source/blender/blenkernel/intern/texture.c b/source/blender/blenkernel/intern/texture.c index 9dd83181521..300d272b86b 100644 --- a/source/blender/blenkernel/intern/texture.c +++ b/source/blender/blenkernel/intern/texture.c @@ -571,7 +571,7 @@ void default_mtex(MTex *mtex) mtex->size[1] = 1.0; mtex->size[2] = 1.0; mtex->tex = NULL; - mtex->texflag = MTEX_3TAP_BUMP | MTEX_BUMP_OBJECTSPACE; + mtex->texflag = MTEX_3TAP_BUMP | MTEX_BUMP_OBJECTSPACE | MTEX_MAPTO_BOUNDS; mtex->colormodel = 0; mtex->r = 1.0; mtex->g = 0.0; |