diff options
Diffstat (limited to 'source/blender/blenkernel/intern/gpencil_geom.cc')
-rw-r--r-- | source/blender/blenkernel/intern/gpencil_geom.cc | 64 |
1 files changed, 32 insertions, 32 deletions
diff --git a/source/blender/blenkernel/intern/gpencil_geom.cc b/source/blender/blenkernel/intern/gpencil_geom.cc index 4d0db4d5386..563f05691ae 100644 --- a/source/blender/blenkernel/intern/gpencil_geom.cc +++ b/source/blender/blenkernel/intern/gpencil_geom.cc @@ -746,7 +746,7 @@ bool BKE_gpencil_stroke_stretch(bGPDstroke *gps, * `curvature = delta angle/delta arclength = len_v3(total_angle) / overshoot_length` */ float curvature = normalize_v3(total_angle) / overshoot_length; /* Compensate for the weights powf(added_len, segment_influence). */ - curvature /= powf(overshoot_length / fminf(overshoot_parameter, (float)j), segment_influence); + curvature /= powf(overshoot_length / fminf(overshoot_parameter, float(j)), segment_influence); if (invert_curvature) { curvature = -curvature; } @@ -1044,14 +1044,14 @@ bool BKE_gpencil_stroke_smooth_point(bGPDstroke *gps, (iterations * iterations) / 4 + 2 * iterations + 12; double w = keep_shape ? 2.0 : 1.0; double w2 = keep_shape ? - (1.0 / M_SQRT3) * exp((2 * iterations * iterations) / (double)(n_half * 3)) : + (1.0 / M_SQRT3) * exp((2 * iterations * iterations) / double(n_half * 3)) : 0.0; double total_w = 0.0; for (int step = iterations; step > 0; step--) { int before = point_index - step; int after = point_index + step; - float w_before = (float)(w - w2); - float w_after = (float)(w - w2); + float w_before = float(w - w2); + float w_after = float(w - w2); if (is_cyclic) { before = (before % gps->totpoints + gps->totpoints) % gps->totpoints; @@ -1060,13 +1060,13 @@ bool BKE_gpencil_stroke_smooth_point(bGPDstroke *gps, else { if (before < 0) { if (!smooth_caps) { - w_before *= -before / (float)point_index; + w_before *= -before / float(point_index); } before = 0; } if (after > gps->totpoints - 1) { if (!smooth_caps) { - w_after *= (after - (gps->totpoints - 1)) / (float)(gps->totpoints - 1 - point_index); + w_after *= (after - (gps->totpoints - 1)) / float(gps->totpoints - 1 - point_index); } after = gps->totpoints - 1; } @@ -1081,14 +1081,14 @@ bool BKE_gpencil_stroke_smooth_point(bGPDstroke *gps, total_w += w_before; total_w += w_after; - w *= (n_half + step) / (double)(n_half + 1 - step); - w2 *= (n_half * 3 + step) / (double)(n_half * 3 + 1 - step); + w *= (n_half + step) / double(n_half + 1 - step); + w2 *= (n_half * 3 + step) / double(n_half * 3 + 1 - step); } total_w += w - w2; /* The accumulated weight total_w should be * ~sqrt(M_PI * n_half) * exp((iterations * iterations) / n_half) < 100 * here, but sometimes not quite. */ - mul_v3_fl(sco, (float)(1.0 / total_w)); + mul_v3_fl(sco, float(1.0 / total_w)); /* Shift back to global coordinates. */ add_v3_v3(sco, &pt->x); @@ -1123,8 +1123,8 @@ bool BKE_gpencil_stroke_smooth_strength( for (int step = iterations; step > 0; step--) { int before = point_index - step; int after = point_index + step; - float w_before = (float)w; - float w_after = (float)w; + float w_before = float(w); + float w_after = float(w); if (is_cyclic) { before = (before % gps->totpoints + gps->totpoints) % gps->totpoints; @@ -1142,7 +1142,7 @@ bool BKE_gpencil_stroke_smooth_strength( total_w += w_before; total_w += w_after; - w *= (n_half + step) / (double)(n_half + 1 - step); + w *= (n_half + step) / double(n_half + 1 - step); } total_w += w; /* The accumulated weight total_w should be @@ -1181,8 +1181,8 @@ bool BKE_gpencil_stroke_smooth_thickness( for (int step = iterations; step > 0; step--) { int before = point_index - step; int after = point_index + step; - float w_before = (float)w; - float w_after = (float)w; + float w_before = float(w); + float w_after = float(w); if (is_cyclic) { before = (before % gps->totpoints + gps->totpoints) % gps->totpoints; @@ -1200,7 +1200,7 @@ bool BKE_gpencil_stroke_smooth_thickness( total_w += w_before; total_w += w_after; - w *= (n_half + step) / (double)(n_half + 1 - step); + w *= (n_half + step) / double(n_half + 1 - step); } total_w += w; /* The accumulated weight total_w should be @@ -1251,8 +1251,8 @@ bool BKE_gpencil_stroke_smooth_uv(struct bGPDstroke *gps, for (int step = iterations; step > 0; step--) { int before = point_index - step; int after = point_index + step; - float w_before = (float)w; - float w_after = (float)w; + float w_before = float(w); + float w_after = float(w); if (is_cyclic) { before = (before % gps->totpoints + gps->totpoints) % gps->totpoints; @@ -1260,11 +1260,11 @@ bool BKE_gpencil_stroke_smooth_uv(struct bGPDstroke *gps, } else { if (before < 0) { - w_before *= -before / (float)point_index; + w_before *= -before / float(point_index); before = 0; } if (after > gps->totpoints - 1) { - w_after *= (after - (gps->totpoints - 1)) / (float)(gps->totpoints - 1 - point_index); + w_after *= (after - (gps->totpoints - 1)) / float(gps->totpoints - 1 - point_index); after = gps->totpoints - 1; } } @@ -1278,7 +1278,7 @@ bool BKE_gpencil_stroke_smooth_uv(struct bGPDstroke *gps, total_w += w_before; total_w += w_after; - w *= (n_half + step) / (double)(n_half + 1 - step); + w *= (n_half + step) / double(n_half + 1 - step); } total_w += w; /* The accumulated weight total_w should be @@ -1353,7 +1353,7 @@ void BKE_gpencil_stroke_2d_flat(const bGPDspoint *points, const bGPDspoint *pt0 = &points[0]; const bGPDspoint *pt1 = &points[1]; - const bGPDspoint *pt3 = &points[(int)(totpoints * 0.75)]; + const bGPDspoint *pt3 = &points[int(totpoints * 0.75)]; float locx[3]; float locy[3]; @@ -1430,7 +1430,7 @@ void BKE_gpencil_stroke_2d_flat_ref(const bGPDspoint *ref_points, const bGPDspoint *pt0 = &ref_points[0]; const bGPDspoint *pt1 = &ref_points[1]; - const bGPDspoint *pt3 = &ref_points[(int)(ref_totpoints * 0.75)]; + const bGPDspoint *pt3 = &ref_points[int(ref_totpoints * 0.75)]; float locx[3]; float locy[3]; @@ -1499,7 +1499,7 @@ void BKE_gpencil_stroke_2d_flat_ref(const bGPDspoint *ref_points, } /* Concave (-1), Convex (1), or Auto-detect (0)? */ - *r_direction = (int)locy[2]; + *r_direction = int(locy[2]); } /* Calc texture coordinates using flat projected points. */ @@ -1564,7 +1564,7 @@ void BKE_gpencil_stroke_fill_triangulate(bGPDstroke *gps) /* convert to 2d and triangulate */ BKE_gpencil_stroke_2d_flat(gps->points, gps->totpoints, points2d, &direction); - BLI_polyfill_calc(points2d, (uint)gps->totpoints, direction, tmp_triangles); + BLI_polyfill_calc(points2d, uint(gps->totpoints), direction, tmp_triangles); /* calc texture coordinates automatically */ float minv[2]; @@ -1844,7 +1844,7 @@ bool BKE_gpencil_stroke_close(bGPDstroke *gps) pt2 = &gps->points[0]; bGPDspoint *pt = &gps->points[old_tot]; for (int i = 1; i < tot_newpoints + 1; i++, pt++) { - float step = (tot_newpoints > 1) ? ((float)i / (float)tot_newpoints) : 0.99f; + float step = (tot_newpoints > 1) ? (float(i) / float(tot_newpoints)) : 0.99f; /* Clamp last point to be near, but not on top of first point. */ if ((tot_newpoints > 1) && (i == tot_newpoints)) { step *= 0.99f; @@ -1988,7 +1988,7 @@ void BKE_gpencil_stroke_normal(const bGPDstroke *gps, float r_normal[3]) const bGPDspoint *pt0 = &points[0]; const bGPDspoint *pt1 = &points[1]; - const bGPDspoint *pt3 = &points[(int)(totpoints * 0.75)]; + const bGPDspoint *pt3 = &points[int(totpoints * 0.75)]; float vec1[3]; float vec2[3]; @@ -3117,7 +3117,7 @@ bGPDstroke *BKE_gpencil_stroke_delete_tagged_points(bGPdata *gpd, bGPDstroke *new_stroke = nullptr; bGPDstroke *gps_first = nullptr; - const bool is_cyclic = (bool)(gps->flag & GP_STROKE_CYCLIC); + const bool is_cyclic = bool(gps->flag & GP_STROKE_CYCLIC); /* First Pass: Identify start/end of islands */ bGPDspoint *pt = gps->points; @@ -3210,7 +3210,7 @@ bGPDstroke *BKE_gpencil_stroke_delete_tagged_points(bGPdata *gpd, float delta = gps->points[island->start_idx].time; int j; - new_stroke->inittime += (double)delta; + new_stroke->inittime += double(delta); pts = new_stroke->points; for (j = 0; j < new_stroke->totpoints; j++, pts++) { @@ -3502,7 +3502,7 @@ void BKE_gpencil_stroke_join(bGPDstroke *gps_a, /* Ratio to apply in the points to keep the same thickness in the joined stroke using the * destination stroke thickness. */ const float ratio = (fit_thickness && gps_a->thickness > 0.0f) ? - (float)gps_b->thickness / (float)gps_a->thickness : + float(gps_b->thickness) / float(gps_a->thickness) : 1.0f; /* 3rd: add all points */ @@ -3863,7 +3863,7 @@ static int generate_arc_from_point_to_point(ListBase *list, * points to insert. */ int num_points = (int)(((1 << (subdivisions + 1)) - 1) * (angle / M_PI)); if (num_points > 0) { - float angle_incr = angle / (float)num_points; + float angle_incr = angle / float(num_points); float vec_p[3]; float vec_t[3]; @@ -3918,7 +3918,7 @@ static int generate_semi_circle_from_point_to_point(ListBase *list, } float vec_p[3]; - float angle_incr = M_PI / ((float)num_points - 1); + float angle_incr = M_PI / (float(num_points) - 1); tPerimeterPoint *last_point = from; for (int i = 1; i < num_points; i++) { @@ -4324,7 +4324,7 @@ float BKE_gpencil_stroke_average_pressure_get(bGPDstroke *gps) tot += pt->pressure; } - return tot / (float)gps->totpoints; + return tot / float(gps->totpoints); } bool BKE_gpencil_stroke_is_pressure_constant(bGPDstroke *gps) |