diff options
Diffstat (limited to 'source/blender/blenkernel/intern')
-rw-r--r-- | source/blender/blenkernel/intern/anim_sys.c | 26 | ||||
-rw-r--r-- | source/blender/blenkernel/intern/curve.c | 102 | ||||
-rw-r--r-- | source/blender/blenkernel/intern/displist.c | 18 | ||||
-rw-r--r-- | source/blender/blenkernel/intern/font.c | 2 | ||||
-rw-r--r-- | source/blender/blenkernel/intern/mesh.c | 2 |
5 files changed, 104 insertions, 46 deletions
diff --git a/source/blender/blenkernel/intern/anim_sys.c b/source/blender/blenkernel/intern/anim_sys.c index 31743a6bd1a..1e9103fb951 100644 --- a/source/blender/blenkernel/intern/anim_sys.c +++ b/source/blender/blenkernel/intern/anim_sys.c @@ -771,6 +771,8 @@ static short animsys_remap_path (AnimMapper *remap, char *path, char **dst) /* Write the given value to a setting using RNA, and return success */ static short animsys_write_rna_setting (PointerRNA *ptr, char *path, int array_index, float value) { + // printf("%p %s %i %f\n", ptr, path, array_index, value); + PropertyRNA *prop; PointerRNA new_ptr; @@ -780,22 +782,35 @@ static short animsys_write_rna_setting (PointerRNA *ptr, char *path, int array_i /* set value - only for animatable numerical values */ if (RNA_property_animateable(&new_ptr, prop)) { + int array_len= RNA_property_array_length(&new_ptr, prop); + + if(array_len && array_index >= array_len) + { + if (G.f & G_DEBUG) { + printf("Animato: Invalid array index. ID = '%s', '%s[%d]', array length is %d \n", + (ptr && ptr->id.data) ? (((ID *)ptr->id.data)->name+2) : "<No ID>", + path, array_index, array_len-1); + } + + return 0; + } + switch (RNA_property_type(prop)) { case PROP_BOOLEAN: - if (RNA_property_array_length(&new_ptr, prop)) + if (array_len) RNA_property_boolean_set_index(&new_ptr, prop, array_index, (int)value); else RNA_property_boolean_set(&new_ptr, prop, (int)value); break; case PROP_INT: - if (RNA_property_array_length(&new_ptr, prop)) + if (array_len) RNA_property_int_set_index(&new_ptr, prop, array_index, (int)value); else RNA_property_int_set(&new_ptr, prop, (int)value); break; case PROP_FLOAT: - if (RNA_property_array_length(&new_ptr, prop)) + if (array_len) RNA_property_float_set_index(&new_ptr, prop, array_index, value); else RNA_property_float_set(&new_ptr, prop, value); @@ -817,7 +832,7 @@ static short animsys_write_rna_setting (PointerRNA *ptr, char *path, int array_i // XXX don't tag as failed yet though, as there are some legit situations (Action Constraint) // where some channels will not exist, but shouldn't lock up Action if (G.f & G_DEBUG) { - printf("Animato: Invalid path. ID = '%s', '%s [%d]' \n", + printf("Animato: Invalid path. ID = '%s', '%s[%d]' \n", (ptr && ptr->id.data) ? (((ID *)ptr->id.data)->name+2) : "<No ID>", path, array_index); } @@ -989,6 +1004,9 @@ static void nlastrip_evaluate_controls (NlaStrip *strip, float ctime) /* execute these settings as per normal */ animsys_evaluate_fcurves(&strip_ptr, &strip->fcurves, NULL, ctime); } + + if (strip->flag & NLASTRIP_FLAG_USR_TIME && strip->flag & NLASTRIP_FLAG_USR_TIME_CYCLIC) + strip->strip_time= fmod(strip->strip_time - strip->actstart, strip->actend - strip->actstart); } /* gets the strip active at the current time for a list of strips for evaluation purposes */ diff --git a/source/blender/blenkernel/intern/curve.c b/source/blender/blenkernel/intern/curve.c index 2430e417e51..b476ebf4994 100644 --- a/source/blender/blenkernel/intern/curve.c +++ b/source/blender/blenkernel/intern/curve.c @@ -519,7 +519,47 @@ void minmaxNurb(Nurb *nu, float *min, float *max) bp++; } } +} + +/* be sure to call makeknots after this */ +void addNurbPoints(Nurb *nu, int number) +{ + BPoint *tmp= nu->bp; + int i; + nu->bp= (BPoint *)MEM_mallocN((nu->pntsu + number) * sizeof(BPoint), "rna_Curve_spline_points_add"); + + if(tmp) { + memmove(nu->bp, tmp, nu->pntsu * sizeof(BPoint)); + MEM_freeN(tmp); + } + + memset(nu->bp + nu->pntsu, 0, number * sizeof(BPoint)); + + for(i=0, tmp= nu->bp + nu->pntsu; i < number; i++, tmp++) { + tmp->radius= 1.0f; + } + + nu->pntsu += number; +} + +void addNurbPointsBezier(Nurb *nu, int number) +{ + BezTriple *tmp= nu->bezt; + int i; + nu->bezt= (BezTriple *)MEM_mallocN((nu->pntsu + number) * sizeof(BezTriple), "rna_Curve_spline_points_add"); + + if(tmp) { + memmove(nu->bezt, tmp, nu->pntsu * sizeof(BezTriple)); + MEM_freeN(tmp); + } + + memset(nu->bezt + nu->pntsu, 0, number * sizeof(BezTriple)); + + for(i=0, tmp= nu->bezt + nu->pntsu; i < number; i++, tmp++) { + tmp->radius= 1.0f; + } + nu->pntsu += number; } /* ~~~~~~~~~~~~~~~~~~~~Non Uniform Rational B Spline calculations ~~~~~~~~~~~ */ @@ -603,7 +643,7 @@ void makeknots(Nurb *nu, short uv) if(nu->knotsu) MEM_freeN(nu->knotsu); if(check_valid_nurb_u(nu)) { nu->knotsu= MEM_callocN(4+sizeof(float)*KNOTSU(nu), "makeknots"); - if(nu->flagu & CU_CYCLIC) { + if(nu->flagu & CU_NURB_CYCLIC) { calcknots(nu->knotsu, nu->pntsu, nu->orderu, 0); /* cyclic should be uniform */ makecyclicknots(nu->knotsu, nu->pntsu, nu->orderu); } else { @@ -616,7 +656,7 @@ void makeknots(Nurb *nu, short uv) if(nu->knotsv) MEM_freeN(nu->knotsv); if(check_valid_nurb_v(nu)) { nu->knotsv= MEM_callocN(4+sizeof(float)*KNOTSV(nu), "makeknots"); - if(nu->flagv & CU_CYCLIC) { + if(nu->flagv & CU_NURB_CYCLIC) { calcknots(nu->knotsv, nu->pntsv, nu->orderv, 0); /* cyclic should be uniform */ makecyclicknots(nu->knotsv, nu->pntsv, nu->orderv); } else { @@ -734,18 +774,18 @@ void makeNurbfaces(Nurb *nu, float *coord_array, int rowstride) fp= nu->knotsu; ustart= fp[nu->orderu-1]; - if(nu->flagu & CU_CYCLIC) uend= fp[nu->pntsu+nu->orderu-1]; + if(nu->flagu & CU_NURB_CYCLIC) uend= fp[nu->pntsu+nu->orderu-1]; else uend= fp[nu->pntsu]; - ustep= (uend-ustart)/((nu->flagu & CU_CYCLIC) ? totu : totu - 1); + ustep= (uend-ustart)/((nu->flagu & CU_NURB_CYCLIC) ? totu : totu - 1); basisu= (float *)MEM_mallocN(sizeof(float)*KNOTSU(nu), "makeNurbfaces3"); fp= nu->knotsv; vstart= fp[nu->orderv-1]; - if(nu->flagv & CU_CYCLIC) vend= fp[nu->pntsv+nu->orderv-1]; + if(nu->flagv & CU_NURB_CYCLIC) vend= fp[nu->pntsv+nu->orderv-1]; else vend= fp[nu->pntsv]; - vstep= (vend-vstart)/((nu->flagv & CU_CYCLIC) ? totv : totv - 1); + vstep= (vend-vstart)/((nu->flagv & CU_NURB_CYCLIC) ? totv : totv - 1); len= KNOTSV(nu); basisv= (float *)MEM_mallocN(sizeof(float)*len*totv, "makeNurbfaces3"); @@ -753,7 +793,7 @@ void makeNurbfaces(Nurb *nu, float *coord_array, int rowstride) jend= (int *)MEM_mallocN(sizeof(float)*totv, "makeNurbfaces5"); /* precalculation of basisv and jstart,jend */ - if(nu->flagv & CU_CYCLIC) cycl= nu->orderv-1; + if(nu->flagv & CU_NURB_CYCLIC) cycl= nu->orderv-1; else cycl= 0; v= vstart; basis= basisv; @@ -764,7 +804,7 @@ void makeNurbfaces(Nurb *nu, float *coord_array, int rowstride) v+= vstep; } - if(nu->flagu & CU_CYCLIC) cycl= nu->orderu-1; + if(nu->flagu & CU_NURB_CYCLIC) cycl= nu->orderu-1; else cycl= 0; in= coord_array; u= ustart; @@ -882,13 +922,13 @@ void makeNurbcurve(Nurb *nu, float *coord_array, float *tilt_array, float *radiu fp= nu->knotsu; ustart= fp[nu->orderu-1]; - if(nu->flagu & CU_CYCLIC) uend= fp[nu->pntsu+nu->orderu-1]; + if(nu->flagu & CU_NURB_CYCLIC) uend= fp[nu->pntsu+nu->orderu-1]; else uend= fp[nu->pntsu]; - ustep= (uend-ustart)/(resolu - ((nu->flagu & CU_CYCLIC) ? 0 : 1)); + ustep= (uend-ustart)/(resolu - ((nu->flagu & CU_NURB_CYCLIC) ? 0 : 1)); basisu= (float *)MEM_mallocN(sizeof(float)*KNOTSU(nu), "makeNurbcurve3"); - if(nu->flagu & CU_CYCLIC) cycl= nu->orderu-1; + if(nu->flagu & CU_NURB_CYCLIC) cycl= nu->orderu-1; else cycl= 0; u= ustart; @@ -1022,8 +1062,8 @@ float *make_orco_surf(Object *ob) sizeu = nu->pntsu*nu->resolu; sizev = nu->pntsv*nu->resolv; - if (nu->flagu & CU_CYCLIC) sizeu++; - if (nu->flagv & CU_CYCLIC) sizev++; + if (nu->flagu & CU_NURB_CYCLIC) sizeu++; + if (nu->flagv & CU_NURB_CYCLIC) sizev++; if(nu->pntsv>1) tot+= sizeu * sizev; nu= nu->next; @@ -1036,8 +1076,8 @@ float *make_orco_surf(Object *ob) if(nu->pntsv>1) { sizeu = nu->pntsu*nu->resolu; sizev = nu->pntsv*nu->resolv; - if (nu->flagu & CU_CYCLIC) sizeu++; - if (nu->flagv & CU_CYCLIC) sizev++; + if (nu->flagu & CU_NURB_CYCLIC) sizeu++; + if (nu->flagv & CU_NURB_CYCLIC) sizev++; if(cu->flag & CU_UV_ORCO) { for(b=0; b< sizeu; b++) { @@ -1063,12 +1103,12 @@ float *make_orco_surf(Object *ob) for(b=0; b<sizeu; b++) { int use_b= b; - if (b==sizeu-1 && (nu->flagu & CU_CYCLIC)) + if (b==sizeu-1 && (nu->flagu & CU_NURB_CYCLIC)) use_b= 0; for(a=0; a<sizev; a++) { int use_a= a; - if (a==sizev-1 && (nu->flagv & CU_CYCLIC)) + if (a==sizev-1 && (nu->flagv & CU_NURB_CYCLIC)) use_a= 0; tdata = _tdata + 3 * (use_b * (nu->pntsv*nu->resolv) + use_a); @@ -1511,14 +1551,14 @@ static void alfa_bezpart(BezTriple *prevbezt, BezTriple *bezt, Nurb *nu, float * /* returns a point */ if(prevbezt==nu->bezt) { - if(nu->flagu & CU_CYCLIC) pprev= last; + if(nu->flagu & CU_NURB_CYCLIC) pprev= last; else pprev= prevbezt; } else pprev= prevbezt-1; /* next point */ if(bezt==last) { - if(nu->flagu & CU_CYCLIC) next= nu->bezt; + if(nu->flagu & CU_NURB_CYCLIC) next= nu->bezt; else next= bezt; } else next= bezt+1; @@ -1977,7 +2017,7 @@ void makeBevelList(Object *ob) bl= MEM_callocN(sizeof(BevList)+len*sizeof(BevPoint), "makeBevelList2"); BLI_addtail(&(cu->bev), bl); - if(nu->flagu & CU_CYCLIC) bl->poly= 0; + if(nu->flagu & CU_NURB_CYCLIC) bl->poly= 0; else bl->poly= -1; bl->nr= len; bl->dupe_nr= 0; @@ -1995,17 +2035,17 @@ void makeBevelList(Object *ob) } else if(nu->type == CU_BEZIER) { - len= resolu*(nu->pntsu+ (nu->flagu & CU_CYCLIC) -1)+1; /* in case last point is not cyclic */ + len= resolu*(nu->pntsu+ (nu->flagu & CU_NURB_CYCLIC) -1)+1; /* in case last point is not cyclic */ bl= MEM_callocN(sizeof(BevList)+len*sizeof(BevPoint), "makeBevelBPoints"); BLI_addtail(&(cu->bev), bl); - if(nu->flagu & CU_CYCLIC) bl->poly= 0; + if(nu->flagu & CU_NURB_CYCLIC) bl->poly= 0; else bl->poly= -1; bevp= (BevPoint *)(bl+1); a= nu->pntsu-1; bezt= nu->bezt; - if(nu->flagu & CU_CYCLIC) { + if(nu->flagu & CU_NURB_CYCLIC) { a++; prevbezt= nu->bezt+(nu->pntsu-1); } @@ -2066,7 +2106,7 @@ void makeBevelList(Object *ob) bezt++; } - if((nu->flagu & CU_CYCLIC)==0) { /* not cyclic: endpoint */ + if((nu->flagu & CU_NURB_CYCLIC)==0) { /* not cyclic: endpoint */ VECCOPY(bevp->vec, prevbezt->vec[1]); bevp->alfa= prevbezt->alfa; bevp->radius= prevbezt->radius; @@ -2081,7 +2121,7 @@ void makeBevelList(Object *ob) BLI_addtail(&(cu->bev), bl); bl->nr= len; bl->dupe_nr= 0; - if(nu->flagu & CU_CYCLIC) bl->poly= 0; + if(nu->flagu & CU_NURB_CYCLIC) bl->poly= 0; else bl->poly= -1; bevp= (BevPoint *)(bl+1); @@ -2521,7 +2561,7 @@ void calchandlesNurb(Nurb *nu) /* first, if needed, set handle flags */ a= nu->pntsu; bezt= nu->bezt; - if(nu->flagu & CU_CYCLIC) prev= bezt+(a-1); + if(nu->flagu & CU_NURB_CYCLIC) prev= bezt+(a-1); else prev= 0; next= bezt+1; @@ -2529,7 +2569,7 @@ void calchandlesNurb(Nurb *nu) /* first, if needed, set handle flags */ calchandleNurb(bezt, prev, next, 0); prev= bezt; if(a==1) { - if(nu->flagu & CU_CYCLIC) next= nu->bezt; + if(nu->flagu & CU_NURB_CYCLIC) next= nu->bezt; else next= 0; } else next++; @@ -2986,7 +3026,7 @@ int check_valid_nurb_u( struct Nurb *nu ) if (nu->type != CU_NURBS) return 1; /* not a nurb, lets assume its valid */ if (nu->pntsu < nu->orderu) return 0; - if (((nu->flag & CU_CYCLIC)==0) && ((nu->flagu>>1) & 2)) { /* Bezier U Endpoints */ + if (((nu->flag & CU_NURB_CYCLIC)==0) && (nu->flagu & CU_NURB_BEZIER)) { /* Bezier U Endpoints */ if (nu->orderu==4) { if (nu->pntsu < 5) return 0; /* bezier with 4 orderu needs 5 points */ } else if (nu->orderu != 3) return 0; /* order must be 3 or 4 */ @@ -3000,7 +3040,7 @@ int check_valid_nurb_v( struct Nurb *nu) if (nu->type != CU_NURBS) return 1; /* not a nurb, lets assume its valid */ if (nu->pntsv < nu->orderv) return 0; - if (((nu->flag & CU_CYCLIC)==0) && ((nu->flagv>>1) & 2)) { /* Bezier V Endpoints */ + if (((nu->flag & CU_NURB_CYCLIC)==0) && (nu->flagv & CU_NURB_BEZIER)) { /* Bezier V Endpoints */ if (nu->orderv==4) { if (nu->pntsv < 5) return 0; /* bezier with 4 orderu needs 5 points */ } else if (nu->orderv != 3) return 0; /* order must be 3 or 4 */ @@ -3015,7 +3055,7 @@ int clamp_nurb_order_u( struct Nurb *nu ) nu->orderu= nu->pntsu; change= 1; } - if(((nu->flag & CU_CYCLIC)==0) && (nu->flagu>>1)&2) { + if(((nu->flag & CU_NURB_CYCLIC)==0) && (nu->flagu & CU_NURB_BEZIER)) { CLAMP(nu->orderu, 3,4); change= 1; } @@ -3029,7 +3069,7 @@ int clamp_nurb_order_v( struct Nurb *nu) nu->orderv= nu->pntsv; change= 1; } - if(((nu->flag & CU_CYCLIC)==0) && (nu->flagv>>1)&2) { + if(((nu->flag & CU_NURB_CYCLIC)==0) && (nu->flagv & CU_NURB_BEZIER)) { CLAMP(nu->orderv, 3,4); change= 1; } diff --git a/source/blender/blenkernel/intern/displist.c b/source/blender/blenkernel/intern/displist.c index 56eabc0f5ef..07ecf4c92a9 100644 --- a/source/blender/blenkernel/intern/displist.c +++ b/source/blender/blenkernel/intern/displist.c @@ -840,17 +840,17 @@ static void curve_to_displist(Curve *cu, ListBase *nubase, ListBase *dispbase) /* count */ len= 0; a= nu->pntsu-1; - if(nu->flagu & CU_CYCLIC) a++; + if(nu->flagu & CU_NURB_CYCLIC) a++; prevbezt= nu->bezt; bezt= prevbezt+1; while(a--) { - if(a==0 && (nu->flagu & CU_CYCLIC)) bezt= nu->bezt; + if(a==0 && (nu->flagu & CU_NURB_CYCLIC)) bezt= nu->bezt; if(prevbezt->h2==HD_VECT && bezt->h1==HD_VECT) len++; else len+= resolu; - if(a==0 && (nu->flagu & CU_CYCLIC)==0) len++; + if(a==0 && (nu->flagu & CU_NURB_CYCLIC)==0) len++; prevbezt= bezt; bezt++; @@ -867,7 +867,7 @@ static void curve_to_displist(Curve *cu, ListBase *nubase, ListBase *dispbase) data= dl->verts; - if(nu->flagu & CU_CYCLIC) { + if(nu->flagu & CU_NURB_CYCLIC) { dl->type= DL_POLY; a= nu->pntsu; } @@ -920,7 +920,7 @@ static void curve_to_displist(Curve *cu, ListBase *nubase, ListBase *dispbase) dl->charidx = nu->charidx; data= dl->verts; - if(nu->flagu & CU_CYCLIC) dl->type= DL_POLY; + if(nu->flagu & CU_NURB_CYCLIC) dl->type= DL_POLY; else dl->type= DL_SEGM; makeNurbcurve(nu, data, NULL, NULL, resolu, 3*sizeof(float)); } @@ -935,7 +935,7 @@ static void curve_to_displist(Curve *cu, ListBase *nubase, ListBase *dispbase) dl->charidx = nu->charidx; data= dl->verts; - if(nu->flagu & CU_CYCLIC) dl->type= DL_POLY; + if(nu->flagu & CU_NURB_CYCLIC) dl->type= DL_POLY; else dl->type= DL_SEGM; a= len; @@ -1610,7 +1610,7 @@ void makeDispListSurf(Scene *scene, Object *ob, ListBase *dispbase, dl->rt= nu->flag; data= dl->verts; - if(nu->flagu & CU_CYCLIC) dl->type= DL_POLY; + if(nu->flagu & CU_NURB_CYCLIC) dl->type= DL_POLY; else dl->type= DL_SEGM; makeNurbcurve(nu, data, NULL, NULL, nu->resolu, 3*sizeof(float)); @@ -1631,8 +1631,8 @@ void makeDispListSurf(Scene *scene, Object *ob, ListBase *dispbase, dl->parts= (nu->pntsu*nu->resolu); /* in reverse, because makeNurbfaces works that way */ dl->nr= (nu->pntsv*nu->resolv); - if(nu->flagv & CU_CYCLIC) dl->flag|= DL_CYCL_U; /* reverse too! */ - if(nu->flagu & CU_CYCLIC) dl->flag|= DL_CYCL_V; + if(nu->flagv & CU_NURB_CYCLIC) dl->flag|= DL_CYCL_U; /* reverse too! */ + if(nu->flagu & CU_NURB_CYCLIC) dl->flag|= DL_CYCL_V; makeNurbfaces(nu, data, 0); diff --git a/source/blender/blenkernel/intern/font.c b/source/blender/blenkernel/intern/font.c index efd93aa362d..8ec4814dc94 100644 --- a/source/blender/blenkernel/intern/font.c +++ b/source/blender/blenkernel/intern/font.c @@ -473,7 +473,7 @@ static void build_underline(Curve *cu, float x1, float y1, float x2, float y2, i nu2->pntsv = 1; nu2->orderu = 4; nu2->orderv = 1; - nu2->flagu = CU_CYCLIC; + nu2->flagu = CU_NURB_CYCLIC; bp = (BPoint*)MEM_callocN(4 * sizeof(BPoint),"underline_bp"); if (bp == 0){ diff --git a/source/blender/blenkernel/intern/mesh.c b/source/blender/blenkernel/intern/mesh.c index 8d2dfcd1989..08130f51b0e 100644 --- a/source/blender/blenkernel/intern/mesh.c +++ b/source/blender/blenkernel/intern/mesh.c @@ -1165,7 +1165,7 @@ void mesh_to_curve(Scene *scene, Object *ob) nu->pntsu= totpoly; nu->pntsv= 1; nu->orderu= 4; - nu->flagu= 2 | (closed ? CU_CYCLIC:0); /* endpoint */ + nu->flagu= CU_NURB_ENDPOINT | (closed ? CU_NURB_CYCLIC:0); /* endpoint */ nu->resolu= 12; nu->bp= (BPoint *)MEM_callocN(sizeof(BPoint)*totpoly, "bpoints"); |