RNA: Spline.calc_length() utility function
D1810 by @Matpi w/ edits
This commit is contained in:
Campbell Barton
@@ -156,9 +156,14 @@ struct Nurb *BKE_nurb_copy(struct Nurb *src, int pntsu, int pntsv);
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void BKE_nurb_test2D(struct Nurb *nu);
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void BKE_nurb_minmax(struct Nurb *nu, bool use_radius, float min[3], float max[3]);
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float BKE_nurb_calc_length(const struct Nurb *nu, int resolution);
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void BKE_nurb_makeFaces(struct Nurb *nu, float *coord_array, int rowstride, int resolu, int resolv);
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void BKE_nurb_makeCurve(struct Nurb *nu, float *coord_array, float *tilt_array, float *radius_array, float *weight_array, int resolu, int stride);
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void BKE_nurb_makeFaces(
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const struct Nurb *nu, float *coord_array,
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int rowstride, int resolu, int resolv);
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void BKE_nurb_makeCurve(
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const struct Nurb *nu, float *coord_array, float *tilt_array, float *radius_array, float *weight_array,
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int resolu, int stride);
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unsigned int BKE_curve_calc_coords_axis_len(
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const unsigned int bezt_array_len, const unsigned int resolu,
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@@ -632,6 +632,107 @@ void BKE_nurb_minmax(Nurb *nu, bool use_radius, float min[3], float max[3])
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}
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}
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float BKE_nurb_calc_length(const Nurb *nu, int resolution)
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{
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BezTriple *bezt, *prevbezt;
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BPoint *bp, *prevbp;
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int a, b;
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float length = 0.0f;
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int resolu = resolution ? resolution : nu->resolu;
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int pntsu = nu->pntsu;
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float *points, *pntsit, *prevpntsit;
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if (nu->type == CU_POLY) {
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a = nu->pntsu - 1;
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bp = nu->bp;
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if (nu->flagu & CU_NURB_CYCLIC) {
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++a;
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prevbp = nu->bp + (nu->pntsu - 1);
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}
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else {
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prevbp = bp;
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bp++;
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}
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while (a--) {
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length += len_v3v3(prevbp->vec, bp->vec);
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prevbp = bp;
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++bp;
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}
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}
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else if (nu->type == CU_BEZIER) {
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points = MEM_mallocN(sizeof(float[3]) * (resolu + 1), "getLength_bezier");
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a = nu->pntsu - 1;
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bezt = nu->bezt;
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if (nu->flagu & CU_NURB_CYCLIC) {
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++a;
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prevbezt = nu->bezt + (nu->pntsu - 1);
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}
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else {
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prevbezt = bezt;
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++bezt;
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}
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while (a--) {
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if (prevbezt->h2 == HD_VECT && bezt->h1 == HD_VECT) {
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length += len_v3v3(prevbezt->vec[1], bezt->vec[1]);
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}
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else {
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for (int j = 0; j < 3; j++) {
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BKE_curve_forward_diff_bezier(
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prevbezt->vec[1][j], prevbezt->vec[2][j],
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bezt->vec[0][j], bezt->vec[1][j],
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points + j, resolu, 3 * sizeof(float));
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}
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prevpntsit = pntsit = points;
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b = resolu;
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while (b--) {
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pntsit += 3;
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length += len_v3v3(prevpntsit, pntsit);
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prevpntsit = pntsit;
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}
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}
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prevbezt = bezt;
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++bezt;
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}
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MEM_freeN(points);
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}
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else if (nu->type == CU_NURBS) {
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if (nu->pntsv == 1) {
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/* important to zero for BKE_nurb_makeCurve. */
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points = MEM_callocN(sizeof(float[3]) * pntsu * resolu, "getLength_nurbs");
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BKE_nurb_makeCurve(
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nu, points,
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NULL, NULL, NULL,
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resolu, sizeof(float[3]));
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if (nu->flagu & CU_NURB_CYCLIC) {
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b = pntsu * resolu + 1;
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prevpntsit = points + 3 * (pntsu * resolu - 1);
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pntsit = points;
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}
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else {
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b = (pntsu - 1) * resolu;
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prevpntsit = points;
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pntsit = points + 3;
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}
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while (--b) {
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length += len_v3v3(prevpntsit, pntsit);
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prevpntsit = pntsit;
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pntsit += 3;
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}
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MEM_freeN(points);
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}
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}
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return length;
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}
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/* be sure to call makeknots after this */
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void BKE_nurb_points_add(Nurb *nu, int number)
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{
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@@ -1080,9 +1181,10 @@ static void basisNurb(float t, short order, int pnts, float *knots, float *basis
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}
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}
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void BKE_nurb_makeFaces(Nurb *nu, float *coord_array, int rowstride, int resolu, int resolv)
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/* coord_array has to be (3 * 4 * resolu * resolv) in size, and zero-ed */
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/**
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* \param coord_array: has to be (3 * 4 * resolu * resolv) in size, and zero-ed.
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*/
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void BKE_nurb_makeFaces(const Nurb *nu, float *coord_array, int rowstride, int resolu, int resolv)
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{
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BPoint *bp;
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float *basisu, *basis, *basisv, *sum, *fp, *in;
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@@ -1258,8 +1360,9 @@ void BKE_nurb_makeFaces(Nurb *nu, float *coord_array, int rowstride, int resolu,
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* \param tilt_array set when non-NULL
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* \param radius_array set when non-NULL
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*/
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void BKE_nurb_makeCurve(Nurb *nu, float *coord_array, float *tilt_array, float *radius_array, float *weight_array,
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int resolu, int stride)
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void BKE_nurb_makeCurve(
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const Nurb *nu, float *coord_array, float *tilt_array, float *radius_array, float *weight_array,
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int resolu, int stride)
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{
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const float eps = 1e-6f;
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BPoint *bp;
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@@ -1759,6 +1759,8 @@ static void rna_def_curve_nurb(BlenderRNA *brna)
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RNA_def_property_update(prop, 0, "rna_Curve_update_data");
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RNA_def_struct_path_func(srna, "rna_Curve_spline_path");
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RNA_api_curve_nurb(srna);
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}
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void RNA_def_curve(BlenderRNA *brna)
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@@ -49,6 +49,11 @@ static void rna_Curve_transform(Curve *cu, float *mat, bool shape_keys)
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DAG_id_tag_update(&cu->id, 0);
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}
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static float rna_Nurb_calc_length(Nurb *nu, int resolution_u)
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{
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return BKE_nurb_calc_length(nu, resolution_u);
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}
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#else
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void RNA_api_curve(StructRNA *srna)
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@@ -69,4 +74,20 @@ void RNA_api_curve(StructRNA *srna)
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RNA_def_function_return(func, parm);
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}
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void RNA_api_curve_nurb(StructRNA *srna)
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{
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FunctionRNA *func;
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PropertyRNA *parm;
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func = RNA_def_function(srna, "calc_length", "rna_Nurb_calc_length");
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RNA_def_function_ui_description(func, "Calculate spline length");
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RNA_def_int(
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func, "resolution", 0, 0, 1024, "Resolution",
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"Spline resolution to be used, 0 defaults to the resolution_u", 0, 64);
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parm = RNA_def_float_distance(
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func, "length", 0.0f, 0.0f, FLT_MAX, "Length",
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"Length of the polygonaly approximated spline", 0.0f, FLT_MAX);
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RNA_def_function_return(func, parm);
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}
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#endif
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@@ -261,6 +261,7 @@ void RNA_api_armature_edit_bone(StructRNA *srna);
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void RNA_api_bone(StructRNA *srna);
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void RNA_api_camera(StructRNA *srna);
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void RNA_api_curve(StructRNA *srna);
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void RNA_api_curve_nurb(StructRNA *srna);
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void RNA_api_fcurves(StructRNA *srna);
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void RNA_api_drivers(StructRNA *srna);
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void RNA_api_image_packed_file(struct StructRNA *srna);
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