C3D Toolkit
Kernel - 117982, Vision - 2.9.2.2
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The mutable section surface. More...
#include <surf_section_surface.h>
Classes | |
class | MbSectionSurfaceAuxiliaryData |
Auxiliary data are used for fast calculations. . More... | |
Public Member Functions | |
Common functions of a geometric object | |
MbeSpaceType | IsA () const override |
Get the type of the object. | |
MbeSpaceType | Type () const override |
Get the group object type. | |
MbSpaceItem & | Duplicate (MbRegDuplicate *=nullptr) const override |
Create a copy of the object. More... | |
bool | IsSame (const MbSpaceItem &other, double accuracy=LENGTH_EPSILON) const override |
Determine whether an object is equal. More... | |
bool | SetEqual (const MbSpaceItem &) override |
Make objects equal if they are similar. More... | |
bool | IsSimilar (const MbSpaceItem &) const override |
Determine whether an object is similar. More... | |
void | Transform (const MbMatrix3D &, MbRegTransform *=nullptr) override |
Convert the object according to the matrix. More... | |
void | Move (const MbVector3D &, MbRegTransform *=nullptr) override |
Move an object along a vector. More... | |
void | Rotate (const MbAxis3D &, double angle, MbRegTransform *=nullptr) override |
Rotate an object around an axis at a given angle. More... | |
void | GetProperties (MbProperties &) override |
Outstanding properties of the object. More... | |
void | SetProperties (const MbProperties &) override |
Change the properties of an object. More... | |
void | GetBasisItems (RPArray< MbSpaceItem > &) override |
Outstanding reference objects in a container sent. | |
void | GetBasisPoints (MbControlData3D &) const override |
Get control points of object. | |
void | SetBasisPoints (const MbControlData3D &) override |
Change the object by control points. | |
Functions for surface domain description | |
double | GetUMin () const override |
Get the minimum value of u. | |
double | GetVMin () const override |
Get the minimum value of v. | |
double | GetUMax () const override |
Get the maximum value of u. | |
double | GetVMax () const override |
Get the maximum value of v. | |
bool | IsUClosed () const override |
Determine whether a surface is closed in u-parameter direction. More... | |
bool | IsVClosed () const override |
Determine whether a surface is closed in v-parameter direction. More... | |
Functions for working at surface domain | |
Functions PointOn, Derive... of surfaces correct parameters when they are out of bounds of rectangular domain of parameters. | |
void | PointOn (double &u, double &v, MbCartPoint3D &) const override |
Calculate a point on the surface. More... | |
void | DeriveU (double &u, double &v, MbVector3D &) const override |
Calculate first derivative with respect to u. | |
void | DeriveV (double &u, double &v, MbVector3D &) const override |
Calculate first derivative with respect to v. | |
void | DeriveUU (double &u, double &v, MbVector3D &) const override |
Calculate second derivative with respect to u. | |
void | DeriveVV (double &u, double &v, MbVector3D &) const override |
Calculate second derivative with respect to v. | |
void | DeriveUV (double &u, double &v, MbVector3D &) const override |
Calculate second derivative. | |
void | DeriveUUU (double &u, double &v, MbVector3D &) const override |
Calculate third derivative. | |
void | DeriveUUV (double &u, double &v, MbVector3D &) const override |
Calculate third derivative. | |
void | DeriveUVV (double &u, double &v, MbVector3D &) const override |
Calculate third derivative. | |
void | DeriveVVV (double &u, double &v, MbVector3D &) const override |
Calculate third derivative. | |
void | Normal (double &u, double &v, MbVector3D &) const override |
Calculate normal. | |
Functions for working inside and outside the surface's domain | |
functions _PointOn, _Derive... of surfaces don't correct parameters when they are out of bounds of rectangular domain of parameters. | |
void | _PointOn (double u, double v, MbCartPoint3D &) const override |
Calculate a point on the surface. More... | |
void | _DeriveU (double u, double v, MbVector3D &) const override |
Calculate first derivative with respect to u on extended surface. | |
void | _DeriveV (double u, double v, MbVector3D &) const override |
Calculate first derivative with respect to v on extended surface. | |
void | _DeriveUU (double u, double v, MbVector3D &) const override |
Calculate second derivative with respect to u on extended surface. | |
void | _DeriveVV (double u, double v, MbVector3D &) const override |
Calculate second derivative with respect to v on extended surface. | |
void | _DeriveUV (double u, double v, MbVector3D &) const override |
Calculate second derivative on extended surface. | |
void | _DeriveUUU (double u, double v, MbVector3D &) const override |
Calculate third derivative on extended surface. | |
void | _DeriveUUV (double u, double v, MbVector3D &) const override |
Calculate third derivative on extended surface. | |
void | _DeriveUVV (double u, double v, MbVector3D &) const override |
Calculate third derivative on extended surface. | |
void | _DeriveVVV (double u, double v, MbVector3D &) const override |
Calculate third derivative on extended surface. | |
void | _Normal (double u, double v, MbVector3D &) const override |
Calculate a normal on extended surface. | |
void | Explore (double &u, double &v, bool ext, MbCartPoint3D &pnt, MbVector3D &uDer, MbVector3D &vDer, MbVector3D *uuDer, MbVector3D *vvDer, MbVector3D *uvDer, MbVector3D *nor) const override |
Calculate point and derivatives of object for given parameters. More... | |
Functions of moving along the surface | |
double | StepU (double u, double v, double sag) const override |
Calculate parameter step. More... | |
double | StepV (double u, double v, double sag) const override |
Calculate parameter step. More... | |
double | DeviationStepU (double u, double v, double angle) const override |
Calculate parameter step. More... | |
double | DeviationStepV (double u, double v, double angle) const override |
Calculate parameter step. More... | |
double | MetricStepU (double u, double v, double length) const override |
Calculate parameter step. More... | |
double | MetricStepV (double u, double v, double length) const override |
Calculate parameter step. More... | |
size_t | GetUCount () const override |
The number of splittings by u-parameter for a check of events. | |
size_t | GetVCount () const override |
The number of splittings by v-parameter for a check of events. | |
bool | GetPoleVMin () const override |
Whether a pole exists on parametric region boundary. | |
bool | GetPoleVMax () const override |
Whether a pole exists on parametric region boundary. | |
bool | IsPole (double u, double v, double paramPrecision=PARAM_PRECISION) const override |
Whether the point is a pole. | |
Common functions of surface | |
double | CurvatureU (double u, double v) const override |
Calculate line curvature along the direction of u. More... | |
bool | IsPlanar (double accuracy=METRIC_EPSILON) const override |
Whether a surface is planar. | |
void | ChangeCarrier (const MbSpaceItem &item, MbSpaceItem &init) override |
Changing of carrier. More... | |
void | CalculateGabarit (MbCube &) const override |
Calculate bounding box of surface. It is recommended to use GetGabarit. | |
void | CalculateLocalGabarit (const MbMatrix3D &, MbCube &) const override |
To compute bounding box in a local coordinate system. More... | |
MbSplineSurface * | NurbsSurface (double, double, double, double, bool bmatch=false) const override |
Construct a NURBS copy of trimmed surface. More... | |
MbSurface * | NurbsSurface (const MbNurbsParameters &uParam, const MbNurbsParameters &vParam) const override |
Construct a NURBS copy of a surface. More... | |
MbSurface * | Offset (double d, bool same) const override |
Create an offset surface. More... | |
MbCurve3D * | CurveU (double v, MbRect1D *pRgn, bool bApprox=true) const override |
Construct spatial copy of the line v = const. More... | |
MbCurve3D * | CurveV (double u, MbRect1D *pRgn, bool bApprox=true) const override |
Construct spatial copy of the line u = const. More... | |
bool | CreateNormalPlacements (const MbVector3D &axisZ, double angle, SArray< MbPlacement3D > &places, VERSION version=Math::DefaultMathVersion()) const override |
Construct normal placements of constructive planes. | |
bool | CreateTangentPlacements (const MbVector3D &axisZ, SArray< MbPlacement3D > &places) const override |
Construct tangent placements of constructive planes. | |
bool | IsSimilarToSurface (const MbSurface &surf, VERSION version, double precision=METRIC_PRECISION) const override |
Define whether the surfaces are similar for merge. More... | |
bool | GetMatrixToSurface (const MbSurface &surf, MbMatrix &matr, VERSION version, double precision=METRIC_PRECISION) const override |
Get two-dimensional matrix of transformation from its parametric region to the parametric region of 'surf'. More... | |
ThreeStates | Salient () const override |
Determine whether the surface is convex. | |
bool | IsSurfaceTangent () const |
Does the surface tangent with its reference faces? | |
void | GetTesselation (const MbStepData &stepData, double u1, double u2, double v1, double v2, SArray< double > &uu, SArray< double > &vv) const override |
Determine a splitting of parametric region of a surface by verticals and horizontals. More... | |
size_t | GetUMeshCount () const override |
The the number of splittings in u-direction. | |
size_t | GetVMeshCount () const override |
The the number of splittings in v-direction. | |
Functions of the mutable section surface. | |
const MbSpine & | GetSpine () const |
Get reference spine. | |
const MbCurve3D & | GetSpineCurve () const |
Get reference curve. | |
const MbFunction * | GetRadius1 () const |
Get function of the first fillet surface radius. | |
const MbFunction * | GetRadius2 () const |
Get function of the second fillet surface radius. | |
const MbCurve3D * | GetGuide1 () const |
Get first guide curve (may be nullptr). | |
const MbCurve3D * | GetGuide2 () const |
Get second guide curve (may be nullptr). | |
const MbCurve3D * | GetApexCurve () const |
Get apex curve (may be nullptr). | |
const MbCurve3D * | GetCurve (size_t i) const |
Get additional guide curve (may be absence). | |
const MbFunction * | GetFunction () const |
Get section control function (radius or discriminant, may be nullptr). | |
const MbPolyCurve * | GetPattern () const |
Get forming curve for form==cs_Shape (nullptr on other case). | |
MbeSectionShape | GetSectionForm () const |
Get the surface cross-section shape with the second parameter fixed. More... | |
MbeSmoothForm | GetSmoothForm () const |
void | GetBreakVParams (std::vector< double > &vParams) const |
Get parameters of the reference curve for which the guides have a break. | |
bool | GuideParams (double v, double &t1, double &t2) const |
Calculating the parameters of guide curves by the second surface parameter. | |
bool | ApexParam (double v, double &t0) const |
Calculating the parameter of apex curve by the second surface parameter. | |
bool | ParamByGuide1 (double t1, MbCartPoint &p) const |
Calculating the surface point by the parameter of first the guide curves. | |
bool | ParamByGuide2 (double t2, MbCartPoint &p) const |
Calculating the surface point by the parameter of the second guide curves. | |
bool | ParamByApex (double t0, double &v) const |
Calculating the second surface parameter by the parameter of the apex curve. | |
bool | PointsByGuide1 (std::vector< MbCartPoint > &points) const |
Calculating surface points by the first guide curve. | |
bool | PointsByGuide2 (std::vector< MbCartPoint > &points) const |
Calculating surface points by the second guide curve. | |
bool | PhantomPoints (double v, MbCartPoint3D &guideP1, MbCartPoint3D &guideP2, MbCartPoint3D &apex, double &discrim) const |
Calculating the intersection points of guide curves and apex curve with the section plane specified by the second surface parameter. | |
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virtual | ~MbSurface () |
Destructor. | |
virtual void | Accept (Visitor &visitor) |
Implementation of a function initializing a visit of an object. | |
MbeSpaceType | Type () const override |
Get the group object type. | |
MbeSpaceType | Family () const override |
Get family of objects. | |
double | DistanceToPoint (const MbCartPoint3D &) const override |
Determine the distance to the point. More... | |
void | AddYourGabaritTo (MbCube &c) const override |
Expand sent bounding box (a.k.a. gabarit), so that it included the object. More... | |
void | Refresh () override |
Translate all the time (mutable) data objects in an inconsistent (initial) state. | |
virtual void | PrepareIntegralData (const bool forced) const |
Calculate temporary (mutable) data of an object. More... | |
void | CalculateMesh (const MbStepData &stepData, const MbFormNote ¬e, MbMesh &mesh) const override |
Build polygonal copy mesh. More... | |
MbProperty & | CreateProperty (MbePrompt name) const override |
Create your own property with the name. | |
void | GetBasisPoints (MbControlData3D &) const override |
Get control points of object. | |
void | SetBasisPoints (const MbControlData3D &) override |
Change the object by control points. | |
size_t | size () const |
Number of objects if object is interpreted as vector of objects. | |
const MbSurface * | operator[] (size_t) const |
An access operator. | |
virtual bool | IsUTouch () const |
Determine whether a surface is closed in u-parameter direction regardless of the smoothness of the closure. More... | |
virtual bool | IsVTouch () const |
Determine whether a surface is closed in v-parameter direction regardless of the smoothness of the closure. More... | |
virtual bool | IsUPeriodic () const |
Determine whether a surface is closed in u-parameter direction. More... | |
virtual bool | IsVPeriodic () const |
Determine whether a surface is closed in v-parameter direction. More... | |
virtual double | GetUPeriod () const |
Return period for smoothly closed surface or 0. | |
virtual double | GetVPeriod () const |
Return period for smoothly closed surface or 0. | |
virtual double | GetPeriod (ptrdiff_t i) const |
Return period. More... | |
virtual size_t | Periodicity () const |
Determine periodicity. More... | |
virtual bool | GetPoleUMin () const |
Whether a pole exists on parametric region boundary. | |
virtual bool | GetPoleUMax () const |
Whether a pole exists on parametric region boundary. | |
bool | IsPole (const MbCartPoint &uv, double paramPrecision=PARAM_PRECISION) const |
Whether the point is a pole. | |
virtual void | TangentU (double &u, double &v, MbVector3D &) const |
Calculate tangent vector in u. | |
virtual void | TangentV (double &u, double &v, MbVector3D &) const |
Calculate tangent vector in v. | |
virtual void | NormalU (double &u, double &v, MbVector3D &) const |
Calculate derivative of normal with respect to U. | |
virtual void | NormalV (double &u, double &v, MbVector3D &) const |
Calculate derivative of normal with respect to V. | |
virtual void | Explore (double &u, double &v, MbCartPoint3D &pnt, MbVector3D &uDer, MbVector3D &vDer) const |
Calculate point and first derivatives with respect to u and with respect to v. More... | |
virtual void | _TangentU (double u, double v, MbVector3D &) const |
Calculate tangent vector in u direction on extended surface. | |
virtual void | _TangentV (double u, double v, MbVector3D &) const |
Calculate tangent vector in v direction on extended surface. | |
virtual void | _NormalU (double u, double v, MbVector3D &) const |
Calculate derivative of normal vector on extended surface. | |
virtual void | _NormalV (double u, double v, MbVector3D &) const |
Calculate derivative of normal vector on extended surface. | |
virtual void | _NormalUU (double u, double v, MbVector3D &) const |
Calculate second derivative of normal vector on extended surface. | |
virtual void | _NormalUV (double u, double v, MbVector3D &) const |
Calculate second derivative of normal vector on extended surface. | |
virtual void | _NormalVV (double u, double v, MbVector3D &) const |
Calculate second derivative of normal vector on extended surface. | |
virtual void | _NormalD (double u, double v, double du, double dv, MbVector3D &der) const |
Calculate derivative of normal vector at the point with the given parameters u and v along the line with the given direction (du,dv). | |
virtual void | _NormalDD (double u, double v, double du, double dv, MbVector3D &der) const |
Calculate second derivative of normal vector at the point with the given parameters u and v along the line with the given direction (du,dv). | |
virtual void | _PointNormal (double u, double v, MbCartPoint3D &pnt, MbVector3D &deru, MbVector3D &derv, MbVector3D &norm, MbVector3D &noru, MbVector3D &norv, MbVector3D &deruu, MbVector3D &dervv, MbVector3D &deruv) const |
Calculate all derivatives at point. More... | |
double | SurfaceStep (const double &u, const double &v, bool alongU, const MbStepData &stepData) const |
Calculate parameter step. More... | |
virtual const MbSurface & | GetSurface () const |
Get itself (it is overloaded only in CurveBoundedSurface). | |
virtual const MbSurface & | GetBasisSurface () const |
Get the base surface if exists or itself. | |
virtual MbSurface & | SetSurface () |
Get itself (it is overloaded only in CurveBoundedSurface). | |
virtual MbSurface & | SetBasisSurface () |
Get the base surface if exists or itself. | |
virtual void | GetLimitPoint (ptrdiff_t number, MbCartPoint3D &pnt) const |
Calculate the boundary point. More... | |
virtual void | GetLimitPoint (ptrdiff_t number, MbCartPoint &pnt) const |
Calculate the boundary two-dimensional point. More... | |
MbCartPoint3D | GetLimitPoint (ptrdiff_t number) const |
Calculate the boundary point. More... | |
virtual double | CurvatureV (double u, double v) const |
Calculate line curvature along the direction of v. More... | |
double | NormalCurvatureU (double u, double v) const |
Calculate a normal curvature of line along the direction of u. More... | |
double | NormalCurvatureV (double u, double v) const |
Calculate a normal curvature of line along the direction of v. More... | |
double | NormalCurvature (double u, double v, double du, double dv) const |
Calculate a normal curvature of surface. More... | |
bool | MeanGaussCurvature (double u, double v, double &mean, double &gauss) const |
Calculate the mean and the Gaussian curvature. More... | |
bool | MainCurvatures (double u, double v, double &c1, double &c2, double &du, double &dv) const |
Calculate the mean and the Gaussian curvature. More... | |
virtual bool | IsSameBase (const MbSurface &) const |
Whether a base surface is a copy of the base surface of the given object. | |
virtual double | GetRadius () const |
Get the physical radius of the object or null if it impossible. More... | |
virtual double | GetFilletRadius (const MbCartPoint3D &p, double accuracy=METRIC_REGION) const |
Get fillet radius if the surface is a fillet surface with the set accuracy. More... | |
virtual MbeParamDir | GetFilletDirection (double accuracy=METRIC_REGION) const |
Direction of fillet surface with accuracy. More... | |
virtual bool | GetCylinderAxis (MbAxis3D &) const |
Get rotation axis of a surface. | |
virtual bool | GetCentre (MbCartPoint3D &c) const |
Give the center of sphere surface. | |
virtual bool | GetCenterLines (std::vector< MbCurve3D * > &clCurves) const |
Get center lines of a surface. | |
virtual bool | ChangeCarrierBorne (const MbSurface &item, MbSurface &init, const MbMatrix &matr) |
Changing of carrier elements. More... | |
virtual bool | IsSpinePeriodic () const |
Periodicity of the guide. More... | |
MbSplineSurface * | NurbsSurface (bool bmatch=false) const |
Construct a NURBS copy of a surface. More... | |
bool | NurbsParam (const MbNurbsParameters &tParam, bool uParam, double op1, double op2, bool &isClosedNurbs, double &epsilon, SArray< double > ¶ms) const |
Prepare parameters for the transformation to NURBS surface. More... | |
void | CheckApproxPointParamsOpen (bool isU, double par, size_t degree, size_t pCount, SArray< double > &tList, SArray< double > &aKnots) const |
Chose points for approximation along the parameter. More... | |
void | CheckApproxPointParamsClosed (bool isU, double par, size_t degree, size_t pCount, SArray< double > &tList, SArray< double > &aKnots) const |
Chose points for approximation along the parameter. More... | |
virtual MbCurve3D * | CurveUV (const MbLineSegment &segm, bool bApprox=true) const |
Construct spatial copy of line by parametric line. More... | |
virtual MbeItemLocation | PointRelative (const MbCartPoint3D &pnt, double eps=ANGLE_REGION) const |
Get point location relative to the surface. More... | |
virtual MbeItemLocation | PointClassification (const MbCartPoint &pnt, bool ignoreClosed=false) const |
A point is located inside the region on a surface. More... | |
virtual double | DistanceToBorder (const MbCartPoint &point, double &epsilon) const |
Calculate the parametric distance to the nearest boundary. More... | |
virtual size_t | CurveClassification (const MbCurve &curve, SArray< double > &tcurv, SArray< MbVector > &dir) const |
Determine points of intersections between the curve and the surface contours. More... | |
size_t | SurfaceBorderIntersection (const MbCurve &curve, SArray< double > &tcurv, SArray< MbVector > &dir) const |
Determine points of intersections between the curve and the surface contours. More... | |
virtual MbeNewtonResult | PointProjectionNewton (const MbCartPoint3D &p, size_t iterLimit, double &u, double &v, bool ext) const |
Finding of point projection on surface. For internal use only. | |
virtual bool | NearPointProjection (const MbCartPoint3D &pnt, double &u, double &v, bool ext, MbRect2D *uvRange=nullptr) const |
Find the projection of a point onto the surface. More... | |
virtual MbeNewtonResult | DirectPointProjectionNewton (const MbCartPoint3D &p, const MbVector3D &vect, size_t iterLimit, double &u, double &v, double &w, bool ext) const |
Finding of point projections to the surface in direction of the vector. For internal use only. | |
virtual void | DirectPointProjection (const MbCartPoint3D &pnt, const MbVector3D &vect, SArray< MbCartPoint > &uv, bool ext, MbRect2D *uvRange=nullptr) const |
Find all a point projection onto the surface along a vector in either of two directions. More... | |
virtual bool | NearDirectPointProjection (const MbCartPoint3D &pnt, const MbVector3D &vect, double &u, double &v, bool ext, MbRect2D *uvRange=nullptr, bool onlyPositiveDirection=false) const |
Find the nearest point projection to the surface in the vector direction. More... | |
virtual MbeNewtonResult | CurveIntersectNewton (const MbCurve3D &curv1, double funcEpsilon, size_t iterLimit, double &u0, double &v0, double &t1, bool ext0, bool ext1) const |
Solution of equation system for determination of intersections between a surface and a curve. For internal use only. | |
virtual MbeNewtonResult | CurveTangentNewton (const MbCurve3D &curv1, double funcEpsilon, size_t iterLimit, double &u0, double &v0, double &t1, bool ext0, bool ext1) const |
Solution of equation system for determination of tangency between a surface and a curve. For internal use only. | |
virtual void | CurveIntersection (const MbCurve3D &curv, SArray< MbCartPoint > &uv, SArray< double > &tt, bool ext0, bool ext, bool touchInclude=false) const |
Determine points of intersection between a surface and a curve. More... | |
virtual MbeNewtonResult | SurfaceIntersectNewton (const MbSurface &surf1, MbeParamDir switchPar, double funcEpsilon, size_t iterLimit, double &u0, double &v0, double &u1, double &v1, bool ext0, bool ext1) const |
Solution of equation system for determination of surfaces intersections. For internal use only. | |
virtual MbeNewtonResult | SurfaceTangentNewton (const MbSurface &surf1, MbeParamDir switchPar, double funcEpsilon, size_t iterLimit, double &u0, double &v0, double &u1, double &v1, bool ext0, bool ext1) const |
Solution of equation system for determination of surfaces tangency. For internal use only. | |
virtual MbeNewtonResult | SilhouetteNewton (const MbVector3D &eye, bool perspective, const MbAxis3D *axis, MbeParamDir switchPar, double funcEpsilon, size_t iterLimit, double &u, double &v, bool ext) const |
Solution of equation system for determination of surface silhouette points. For internal use only. | |
virtual bool | IsSpecialSimilarToSurface (const MbSurface &surf, VERSION version, double precision=METRIC_PRECISION) const |
Whether the surfaces are similar to merge. Special case. For internal use only. | |
virtual bool | ProjectCurveOnSimilarSurface (const MbCurve3D &spaceCurve, const MbCurve &curve, const MbSurface &surfNew, MbCurve *&curveNew) const |
Construction of projection of a surface curve on coincident surface. More... | |
bool | ProjectCurveOnSimilarSurface (const MbCurve3D &spaceCurve, const MbCurve &curve, const MbSurface &surfNew, SPtr< MbCurve > &curveNew) const |
Construction of projection of a surface curve on coincident surface. More... | |
virtual double | DistanceToCurve (const MbCurve3D &curve, double &u, double &v, double &t, bool tCalc=false) const |
Calculate the nearest distance to a curve. More... | |
virtual double | DistanceToSurface (const MbSurface &surf1, double &u0, double &v0, double &u1, double &v1) const |
Calculate the nearest distance to a surface. More... | |
MbeNewtonResult | PlacementNewton (const MbVector3D &vec, double angle, MbeParamDir switchPar, size_t iterLimit, double &u, double &v) const |
Construct tangent placements of constructive planes. For internal use only. | |
bool | CreateVconstPlacements (const MbVector3D &axisZ, double angle, bool normalPlace, SArray< MbPlacement3D > &places) const |
Construct the normal or tangent placements on v-lines. | |
bool | CreateUconstPlacements (const MbVector3D &axisZ, double angle, bool normalPlace, SArray< MbPlacement3D > &places) const |
Construct the normal or tangent placements on u-lines. | |
virtual double | ParamArea () const |
Calculate the area of parameters domain. | |
virtual size_t | GetUPairs (double v, SArray< double > &u) const |
Calculate U-pairs by V. More... | |
virtual size_t | GetVPairs (double u, SArray< double > &v) const |
Calculate V-pairs by U. More... | |
MbeNewtonResult | IsoclinalNewton (const MbVector3D &dir, size_t iterLimit, double &u, double &v) const |
Determination of parameters of a surface isocline point. For internal use only. | |
virtual void | GetIsoclinal (const MbVector3D &nor, SArray< MbCartPoint > &uv) const |
Find all isoclines of a surface. More... | |
void | CalculateLocalGabarit (const MbMatrix3D &into, MbCube &cube) const override |
Calculate bounding box in the local coordinate system. | |
const MbCube & | GetGabarit () const |
Calculate bounding box of surface. | |
const MbCube & | Cube () const |
Return saved bounding box. It should be empty. It is recommended to use GetGabarit. | |
void | SetDirtyGabarit () const |
Make the bounding box empty. For internal use only. | |
void | CopyGabarit (const MbSurface &s, const MbVector3D *to=nullptr) |
Copy the bounding box from the copy. More... | |
double | GetGabDiagonal () const |
Calculate the diagonal of the bounding box. | |
void | CalculateRect (const MbPlacement3D &place, MbRect &rect) const |
Calculate the rectangular bounding box of a surface in the given plane. More... | |
virtual MbContour & | MakeContour (bool sense) const |
Return the bounding two-dimensional contour. More... | |
virtual MbCurve & | MakeSegment (size_t i, bool sense) const |
Return a segment of the bounding two-dimensional contour. More... | |
MbCurve & | MakeCurve (size_t number1, size_t number2) const |
Return a segment of the bounding two-dimensional contour. More... | |
virtual bool | SetLimit (double u1, double v1, double u2, double v2) |
Set surface limits. For internal use only. | |
bool | SetLimit (const MbRect &) |
Set surface limits. For internal use only. | |
virtual void | SetExtendedParamRegion (double u1, double v1, double u2, double v2) |
Set extended limits of surface. For internal use only. | |
virtual void | IncludePoint (double u, double v) |
Include a point into domain. For internal use only. | |
double | GetMaxParamDeltaU () const |
Get the maximum increment of U-parameter. | |
double | GetMaxParamDeltaV () const |
Get the maximum increment of V-parameter. | |
virtual double | GetParamDelta () const |
Get the maximum increment of parameter. | |
virtual double | GetParamPrice () const |
Get the minimum distinguishable value of parameter. | |
virtual double | GetUParamToUnit () const |
Get increment of u-parameter, corresponding to the unit length in space. | |
virtual double | GetVParamToUnit () const |
Get increment of v-parameter, corresponding to the unit length in space. | |
virtual double | GetUParamToUnit (double u, double v) const |
Get increment of u-parameter, corresponding to the unit length in space. | |
virtual double | GetVParamToUnit (double u, double v) const |
Get increment of v-parameter, corresponding to the unit length in space. | |
double | GetUParamToUnit (const MbCartPoint &uv) const |
Get increment of u-parameter, corresponding to the unit length in space. | |
double | GetVParamToUnit (const MbCartPoint &uv) const |
Get increment of v-parameter, corresponding to the unit length in space. | |
virtual void | GetParamsToUnit (double u, double v, double &uParam, double &vParam) const |
Get increment of parameters, corresponding to the unit length in space. | |
double | GetUEpsilon () const |
Get the minimum distinguishable value of u-parameter. It corresponds to the length Math::metricEpsilon in space. | |
double | GetVEpsilon () const |
Get the minimum distinguishable value of v-parameter. It corresponds to the length Math::metricEpsilon in space. | |
double | GetUEpsilon (double u, double v) const |
Get the minimum distinguishable value of u-parameter. It corresponds to the length Math::metricEpsilon in space. | |
double | GetVEpsilon (double u, double v) const |
Get the minimum distinguishable value of v-parameter. It corresponds to the length Math::metricEpsilon in space. | |
double | GetURegion () const |
Get the minimum distinguishable value of u-parameter. It corresponds to the length Math::metricRegion in space. | |
double | GetVRegion () const |
Get the minimum distinguishable value of v-parameter. It corresponds to the length Math::metricRegion in space. | |
double | GetURegion (double u, double v) const |
Get the minimum distinguishable value of u-parameter. It corresponds to the length Math::metricRegion in space. | |
double | GetVRegion (double u, double v) const |
Get the minimum distinguishable value of v-parameter. It corresponds to the length Math::metricRegion in space. | |
void | CalculatePolygon (double minPar, double maxPar, double constPar, MbeParamDir dir, const MbStepData &stepData, MbPolygon3D &polygon) const |
Calculate polygon by u or v. More... | |
virtual void | CalculateSurfaceWire (const MbStepData &stepData, size_t beg, MbMesh &mesh, size_t uMeshCount=c3d::WIRE_MAX, size_t vMeshCount=c3d::WIRE_MAX) const |
Calculate mesh. More... | |
void | AddTesselation (const MbStepData &stepData, MbeParamDir dir, double u1, double u2, double v1, double v2, SArray< double > &uu, SArray< double > &vv) const |
Determine splitting of the surface parametric region according to direction. More... | |
virtual void | CalculateSurfaceGrid (const MbStepData &stepData, bool sense, MbGrid &grid) const |
Approximate a surface by triangular plates. More... | |
virtual bool | IsRectangular () const |
Determine whether derivatives with respect to u and v are orthogonal. | |
virtual bool | IsLineU () const |
Check that all derivatives of surface with respect to u which have more than first order are equal to null. | |
virtual bool | IsLineV () const |
Check that all derivatives of surface with respect to v which have more than first order are equal to null. | |
virtual bool | IsShift (const MbSpaceItem &obj, MbVector3D &dir, bool &isSame, double accuracy=LENGTH_EPSILON) const |
Determine whether the object is a translation. More... | |
virtual void | CheckSurfParams (double &u, double &v) const |
Check parameters. Analogue of the global function _CheckParams, optimized for caches usage. More... | |
bool | GetPlacement (MbPlacement3D *place, bool exact=false) const |
Get a local coordinate system of planar surface (or only a possibility of getting it). | |
bool | GetPlanePlacement (MbPlacement3D &place) const |
Get a local coordinate system if a surface is a plane. | |
bool | GetControlPlacement (MbPlacement3D &place, bool sameSense=true) const |
Construct a local coordinate system of a surface with origin at the middle point of base surface parametric limits. More... | |
bool | OrientPlacement (MbPlacement3D &place, bool normalSense=true) const |
Orient an axis X of a placement along the line of its intersection with surface. | |
bool | IsPointOn (const MbCartPoint3D &, double eps=METRIC_PRECISION) const |
Determine whether a point is located on a surface or not. | |
void | PointOn (MbCartPoint &uv, MbCartPoint3D &p) const |
Calculate the point on a surface inside the domain of surface. | |
void | _PointOn (const MbCartPoint &uv, MbCartPoint3D &p) const |
Calculate a point on a surface extension. | |
void | Normal (MbCartPoint &uv, MbVector3D &v) const |
Calculate the normal vector to a surface inside the domain of surface. | |
bool | GetMatrix (double xMin, double xMax, double yMin, double yMax, MbMatrix &matr) const |
Find a matrix of transformation for the curves on a surface when the parameterization is changed. More... | |
double | GetUMid () const |
The middle value of u. | |
double | GetVMid () const |
The middle value of v. | |
double | GetURange () const |
Parametric length by u. | |
double | GetVRange () const |
Parametric length by v. | |
void | GetRect (MbRect &r) const |
Get parametric bounding box. | |
void | GetRect (MbRect2D &r) const |
Get parametric bounding box. | |
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virtual | ~MbSpaceItem () |
Destructor. | |
void | PrepareWrite () const |
Register object. More... | |
MbeRefType | RefType () const override |
Get a registration type (for copying, duplication). | |
bool | IsFamilyRegistrable () const override |
Whether the object belongs to a registrable family. | |
void | CalculateWire (const MbStepData &stepData, MbMesh &mesh) const |
void | CalculateWire (double sag, MbMesh &mesh) const |
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TapeBase (RegistrableRec regs=noRegistrable) | |
Constructor. | |
TapeBase (const TapeBase &) | |
Copy-constructor. | |
virtual | ~TapeBase () |
Destructor. | |
RegistrableRec | GetRegistrable () const |
Whether the stream class is registrable. | |
void | SetRegistrable (RegistrableRec regs=registrable) const |
Set the state of registration of the stream class. | |
virtual const char * | GetPureName (const VersionContainer &) const |
Get the class name. | |
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refcount_t | GetUseCount () const |
Get count of references (get count of owners of an object). | |
refcount_t | AddRef () const |
Increase count of references by one. | |
refcount_t | DecRef () const |
Decrease count of references by one. | |
refcount_t | Release () const |
Decrease count of references by one and if count of references became zero, then remove itself. | |
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void | Lock () const |
Switch lock on (locking happens only in parallel region). | |
void | Unlock () const |
Switch lock off if locking has been set. | |
CommonRecursiveMutex * | GetLock () const |
Get a pointer to the mutex object. Return nullptr if no parallelism. For use in ScopedLock. | |
Static Public Member Functions | |
static MbSectionSurface * | Create (const MbCurve3D &rc, const MbFunction *r1, const MbFunction *r2, const MbCurve3D &g1, const MbCurve3D &g2, const MbCurve3D *c0, MbeSectionShape f, MbeSmoothForm sf, bool sense, double uBeg, double uEnd, const MbFunction *func, const MbCurve *patt, double buildSag, double accuracy, uint32 countBin, VERSION vers, MbResultType &resType) |
The mutable section surface creation. More... | |
Protected Member Functions | |
MbSectionSurface (MbSpine &sp, MbFunction *r1, MbFunction *r2, MbCurve3D &c1, MbCurve3D &c2, std::vector< MbCurve3D * > cs, MbeSectionShape f, MbeSmoothForm sf, double uBeg, double uEnd, MbFunction *func, MbPolyCurve *patt, const std::vector< MbCartPoint > &sh) | |
The mutable section surface constructor. More... | |
MbSectionSurface (MbSpine &sp, MbCurve3D &c0, MbeSectionShape f, double uBeg, double uEnd, MbFunction &func) | |
The mutable section surface constructor. More... | |
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MbSurface () | |
Constructor. | |
MbSurface (const MbSurface &) | |
Copy-constructor. | |
void | MoveGabarit (const MbVector3D &v) |
Move bounding box. | |
void | NormalCalculation (const MbVector3D &uDer, const MbVector3D &vDer, double u, double v, bool ext, MbVector3D &nor) const |
Normal calculation by derivatives uDer and vDer on point with parameters u, v. | |
double | StepAlong (double u, double v, double sag, bool alongU, double stepMinCoeff, const MbVector3D &der, const MbVector3D &sec) const |
Step calculation by sag. | |
double | DeviationStepAlong (double u, double v, double angle, bool alongU, const MbVector3D &der, const MbVector3D &sec) const |
Step calculation by normal deviation. | |
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MbSpaceItem () | |
Default constructor. | |
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MbRefItem () | |
Constructor without parameters. | |
Protected Attributes | |
MbSpine * | spine |
The reference curve. | |
MbFunction * | radius1 |
The function of the first fillet surface radius (may be nullptr). | |
MbFunction * | radius2 |
The function of the second fillet surface radius (may be nullptr). | |
MbCurve3D * | guide1 |
The first guide curve. | |
MbCurve3D * | guide2 |
The second guide curve. | |
std::vector< MbCurve3D * > | curves |
The additional control curves (may be empty). | |
MbFunction * | function |
Section control function (discriminant, may be nullptr). | |
MbPolyCurve * | pattern |
Forming curve for form==cs_Shape (nullptr on other case). | |
std::vector< MbCartPoint > | shape |
Description of shape cross-section for form==cs_Shape (is empty on other case). | |
std::vector< double > | knots |
Knot vector of the spline. | |
size_t | order |
Order of spline. | |
MbeSectionShape | form |
The surface cross-section shape with the second parameter fixed. | |
MbeSmoothForm | sform |
The fillet surface form. | |
double | umin |
Minimal value of parameter u. | |
double | umax |
Maximal value of parameter u. | |
double | vmin |
Minimal value of parameter v. | |
double | vmax |
Maximal value of parameter v. | |
bool | uclosed |
An attribute of closedness in u-parameter direction. | |
bool | vclosed |
An attribute of closedness in v-parameter direction. | |
bool | poleVMin |
Existence of a pole at vmin. | |
bool | poleVMax |
Existence of a pole at vmax. | |
std::vector< double > | vBreaks |
Parameters of the reference curve for which the guides have a break. | |
std::vector< MbSettings > | settings |
Zero approximations of the parameters of the reference curves are used for fast calculations. . | |
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MbCube | cube |
Bounding box of surface. More... | |
The mutable section surface.
The mutable section surface is formed by moving the flat conic section curve along the reference curve. In the process of movement, the shape of the flat curve changes in accordance with the discriminant of the conic section. The beginning of the flat curve is located on the first point guide curve and the end is located on the second point guide curve. The plane of the conic section preserves the orthogonality to the reference curve during movement. First parameter of surface coincides with the parameter of conic section curve. Second parameter of surface coincides with the parameter of reference curve.
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The mutable section surface constructor.
The mutable section surface constructor by reference curve and guide curves.
[in] | sp | - The reference curve (spine). |
[in] | c1 | - The first guide curve. |
[in] | c2 | - The second guide curve. |
[in] | cs | - The additional guide curves (may be empty). |
[in] | f | - The form of the surface section. |
[in] | uBeg | - The minimum value of the first surface parameter. |
[in] | uEnd | - The maximum value of the first surface parameter. |
[in] | func | - Section control function. |
[in] | patt | - Forming curve for form==cs_Shape. |
[in] | sh | - Description of shape cross-section for form==cs_Shape. |
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protected |
The mutable section surface constructor.
The mutable section surface constructor with axis curve and radius law.
[in] | sp | - The reference curve (spine). |
[in] | c0 | - The axis curve. |
[in] | f | - The form of the surface section (cs_Round). |
[in] | uBeg | - The minimum value of the first surface parameter (uBeg<uEnd). |
[in] | uEnd | - The maximum value of the first surface parameter (0<uEnd<M_IP2). |
[in] | func | - Section radius function. |
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static |
The mutable section surface creation.
The mutable section surface creation by reference curve and guide curves.
[in] | rc | - The reference curve (spine). |
[in] | g1 | - The first guide curve. |
[in] | g2 | - The second guide curve (g1==g2 the same first guide for cs_Round). |
[in] | c0 | - The additional guide curve (may be nullptr). |
[in] | f | - The form of the surface section. |
[in] | sense | - The normal direction of guide curve surface (for guide1==guide2). |
[in] | uBeg | - The minimum value of the first surface parameter. |
[in] | uEnd | - The maximum value of the first surface parameter. |
[in] | func | - Section control function. |
[in] | patt | - Forming curve for form==cs_Shape. |
[in] | buildSag | - Angular deviation while moving along curves and surfaces. |
[in] | accuracy | - The accuracy of building. |
[in] | countBin | - Minimum number of steps while moving along the reference curve. |
[in] | vers | - The surface version. |
[out] | resType | - Result code of building. |
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overridevirtual |
Create a copy of the object.
Create a copy of an object using the registrator. Registrator is used to prevent multiple copy of the object. If the object contains references to the other objects, then nested objects are copied as well. It is allowed not to pass registrator into the function. Then new copy of object will be created. While copying of single object or set of not connected objects, it is allowed not to use registrator. Registrator should be used if it is required to copy several connected objects. It is possible, that objects connection is based on the references to common objects. Then, while copying without using of registrator, it is possible to obtain set of copies, that contain references to the different copies of the same nested object, that leads to loss of connection between copies.
[in] | iReg | - Registrator. |
Implements MbSpaceItem.
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Determine whether an object is equal.
Still considered objects of the same type, all data is the same (equal).
[in] | item | - The object to compare. |
[in] | accuracy | - The accuracy to compare. |
Implements MbSpaceItem.
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Make objects equal if they are similar.
You can still make only a similar objects.
[in] | item | - The object to initialize. |
Implements MbSpaceItem.
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overridevirtual |
Determine whether an object is similar.
Such are considered the same objects whose data are similar.
[in] | item | - The object to compare. |
Reimplemented from MbSpaceItem.
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Convert the object according to the matrix.
Convert the original object according to the matrix using the registrator. If object contains references to the other geometric objects, then nested objects are transformed according to the matrix. Registrator is needed to prevent multiple object copying. It is allowed to use function without registrator, if it is needed to transform single object. If it is needed to transform a set of connected objects, then one should use registrator to prevent repeating transformation of nested objects, because of the possible situation when several objects contain references to the same common objects, that require to be transformed.
[in] | matr | - Transformation matrix. |
[in] | iReg | - Registrator. |
Implements MbSpaceItem.
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Move an object along a vector.
Move an object along a geometric vector using the registrator. If object contains references to the other geometric objects then the move operation is applied to the nested objects. Registrator is needed to prevent multiple copying of the object. It is allowed to use function without registrator, if it is needed to transform a single object. If it is needed to transform a set of connected objects, then one should use registrator to prevent repeating transformation of nested objects, because of the possible situation when several objects contain references to the same common objects, that require to be moved.
[in] | to | - Shift vector. |
[in] | iReg | - Registrator. |
Implements MbSpaceItem.
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Rotate an object around an axis at a given angle.
Rotate an object around an axis at a given angle with the registrator. If object contains references to the other geometric objects then the rotation operation is applied to the nested objects. Registrator is needed to prevent multiple copying of the object. It is allowed to use function without registrator, if it is needed to transform a single object. If it is needed to transform a set of connected objects, then one should use registrator to prevent repeating transformation of nested objects, because of the possible situation when several objects contain references to the same common objects, that require to be rotated.
[in] | axis | - The axis of rotation. |
[in] | angle | - Rotation. |
[in] | iReg | - Registrator. |
Implements MbSpaceItem.
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Outstanding properties of the object.
Issue internal data (properties) of the object for viewing and modification.
[in] | properties | - Container for the internal data of the object. |
Implements MbSpaceItem.
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overridevirtual |
Change the properties of an object.
Changing the internal data (properties) of the object you are copying the corresponding values from the sent object.
[in] | properties | - Container for the internal data of the object. |
Implements MbSpaceItem.
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Determine whether a surface is closed in u-parameter direction.
Determine whether a surface is closed smoothly in u-parameter direction without regard to the boundary contour. It is always false for MbCurveBoundSurface. It is recommended to use IsUPeriodic.
Implements MbSurface.
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Determine whether a surface is closed in v-parameter direction.
Determine whether a surface is closed smoothly in v-parameter direction without regard to the boundary contour. It is always false for MbCurveBoundSurface. It is recommended to use IsVPeriodic.
Implements MbSurface.
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Calculate a point on the surface.
Correct parameters when getting out of rectangular domain bounds and Calculate a point on the surface.
[in] | u | - First surface parameter. |
[in] | v | - Second surface parameter. |
[out] | p | - A point on the surface. |
Implements MbSurface.
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Calculate a point on the surface.
Calculate a point on the surface including the outside area determination parameters.
[in] | u | - First surface parameter. |
[in] | v | - Second surface parameter. |
[out] | p | - A point on the surface or on extended surface. |
Reimplemented from MbSurface.
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Calculate point and derivatives of object for given parameters.
Values of point and derivatives are calculated on parameters area and on extended surface.
[in] | u | - Parameter. |
[in] | v | - Parameter. |
[in] | ext | - On parameters area (false), on extended surface (true). |
[out] | pnt | - Point. |
[out] | uDer | - Derivative with respect to u. |
[out] | vDer | - Derivative with respect to v. |
[out] | uuDer | - Second derivative with respect to u, if not nullptr. |
[out] | vvDer | - Second derivative with respect to v, if not nullptr. |
[out] | uvDer | - Second derivative with respect to u and v, if not nullptr. |
Reimplemented from MbSurface.
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Calculate parameter step.
Calculate parameter step for the surface approximation by its sag value along a line with a constant value of v. Calculation of the step is performed with consideration of curvature radius. A step of surface approximation along a curve is chosen in such way, that the deviation from its polygon does not exceed the given value of sag.
[in] | u | - A parameter defining a point on the surface. |
[in] | v | - A parameter defining a point on the surface. |
[in] | sag | - Maximum feasible sag value. |
Reimplemented from MbSurface.
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overridevirtual |
Calculate parameter step.
Calculate parameter step for the surface approximation by its sag value along a line with a constant value of u. Calculation of the step is performed with consideration of curvature radius. A step of surface approximation along a curve is chosen in such way, that the deviation from its polygon does not exceed the given value of sag.
[in] | u | - A parameter defining a point on the surface. |
[in] | v | - A parameter defining a point on the surface. |
[in] | sag | - Maximum feasible sag value. |
Reimplemented from MbSurface.
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Calculate parameter step.
Calculate parameter step for the surface approximation by the deviation angle of the tangent vector along a line with a constant value of u. A step of surface approximation along a curve is chosen in such way, that angular deviation of the tangent to the curve at the next point does not exceed the given value ang.
[in] | u | - A parameter defining a point on the surface. |
[in] | v | - A parameter defining a point on the surface. |
[in] | ang | - The maximum feasible deviation angle of tangent. |
Reimplemented from MbSurface.
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overridevirtual |
Calculate parameter step.
Calculate parameter step for the surface approximation by the deviation angle of the tangent vector along a line with a constant value of v. A step of surface approximation along a curve is chosen in such way, that angular deviation of the tangent to the curve at the next point does not exceed the given value ang.
[in] | u | - A parameter defining a point on the surface. |
[in] | v | - A parameter defining a point on the surface. |
[in] | ang | - The maximum feasible deviation angle of tangent. |
Reimplemented from MbSurface.
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Calculate parameter step.
Calculate the parameter step for approximation of a surface by the given metric length of a step along a line with a constant value of u.
[in] | u | - A parameter defining a point on the surface. |
[in] | v | - A parameter defining a point on the surface. |
[in] | len | - The given metric length. |
Reimplemented from MbSurface.
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overridevirtual |
Calculate parameter step.
Calculate the parameter step for approximation of a surface by the given metric length of a step along a line with a constant value of v.
[in] | u | - A parameter defining a point on the surface. |
[in] | v | - A parameter defining a point on the surface. |
[in] | len | - The given metric length. |
Reimplemented from MbSurface.
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Calculate line curvature along the direction of u.
There is calculated a line curvature along the direction of u when v = const.
[in] | u | - Parameter. |
[in] | v | - Parameter. |
Reimplemented from MbSurface.
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overridevirtual |
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overridevirtual |
To compute bounding box in a local coordinate system.
To obtain bounding box of object with regar to a local coordinate system, sent box is made to be empty. Then it is computed bounding box of object in a local coordinate system \ and it is stored in box 'cube'
[in] | into | - Transformation matrix from object's current coordinate system to a local coordinate system |
[in,out] | cube | - Information on bounding box |
Implements MbSpaceItem.
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Construct a NURBS copy of trimmed surface.
An obtained surface is always unclosed in u and in v. The exception is the NURBS surface itself. If the surface does not require recalculation, then a copy of it is returned. Parameters u1, u2, v1 and v2 are the bounds of surface trimming.
[in] | u1 | - Minimum parameter in U. |
[in] | u2 | - Maximum parameter in U. |
[in] | v1 | - Minimum parameter in V. |
[in] | v2 | - Maximum parameter in V. |
[in] | bmatch | - true, if it is required to keep one-to-one correspondence of parametric regions in mapping. |
Reimplemented from MbSurface.
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Construct a NURBS copy of a surface.
Constructs a NURBS surface which approximates a given surface with the given parameters in each direction. In parameters the degree and the number of knots of a spline and the range of curve's parameters changing may be set. If the flag of accurate approximation is not set in parameters then NURBS without multiple knots is constructed.
[in] | uParam | - Parameters of construction in u direction. |
[in] | vParam | - Parameters of construction in v direction. |
Reimplemented from MbSurface.
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Create an offset surface.
[in] | d | - Distance by the normal vector from the base surface to the offset surface. |
[in] | same | - A flag showing whether to use the current surface or its copy in offset surface. |
Reimplemented from MbSurface.
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Construct spatial copy of the line v = const.
[in] | v | - Parameter in V direction. |
[in] | pRgn | - A range of u-parameters. |
[in] | bApprox | - If false, then it returns null only in a case when the exact curve has been successfully created. If true, then it returns null in a case when the curve is not degenerate. |
Reimplemented from MbSurface.
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Construct spatial copy of the line u = const.
[in] | u | - Parameter in U direction. |
[in] | pRgn | - A range of v-parameters. |
[in] | bApprox | - If false, then it returns null only in a case when the exact curve has been successfully created. If true, then it returns null in a case when the curve is not degenerate. |
Reimplemented from MbSurface.
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Define whether the surfaces are similar for merge.
Surfaces are similar for merge if they coincide geometrically or one surface transits to another.
[in] | surf | - A given surface. |
[in] | version | - Version of operation. |
[in] | precision | - Precision of calculation. |
Reimplemented from MbSurface.
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Get two-dimensional matrix of transformation from its parametric region to the parametric region of 'surf'.
Calculation of matrix of transformation from one parametric region to another. it is performed for the surfaces which are similar for merge.
[in] | surf | - A given surface. |
[out] | matr | - A transformation matrix. |
[in] | version | - Version of operation. |
[in] | precision | - Precision of calculation. |
Reimplemented from MbSurface.
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Determine a splitting of parametric region of a surface by verticals and horizontals.
Determine a splitting of parametric region of a surface by verticals and horizontals during triangulation.
[in] | stepData | - Data for step calculation during triangulation. |
[in] | u1 | - Minimal value of u-parameter in the region of surface splitting. |
[in] | u2 | - Maximal value of u-parameter in the region of surface splitting. |
[in] | v1 | - Minimal value of v-parameter in the region of surface splitting. |
[in] | v2 | - Maximal value of v-parameter in the region of surface splitting. |
[out] | uu | - A set of parameters of splitting by u. |
[out] | vv | - A set of parameters of splitting by v. |
Reimplemented from MbSurface.
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Get the surface cross-section shape with the second parameter fixed.
Get the fillet surface form.