#include <gp_Trsf2d.hxx>
Public Member Functions | |
void * | operator new (size_t, void *anAddress) |
void * | operator new (size_t size) |
void | operator delete (void *anAddress) |
gp_Trsf2d () | |
Returns identity transformation. . | |
gp_Trsf2d (const gp_Trsf &T) | |
Creates a 2d transformation in the XY plane from a 3d transformation . . | |
void | SetMirror (const gp_Pnt2d &P) |
Changes the transformation into a symmetrical transformation. P is the center of the symmetry. . | |
Standard_EXPORT void | SetMirror (const gp_Ax2d &A) |
Changes the transformation into a symmetrical transformation. A is the center of the axial symmetry. . | |
void | SetRotation (const gp_Pnt2d &P, const Standard_Real Ang) |
Changes the transformation into a rotation. P is the rotation's center and Ang is the angular value of the rotation in radian. . | |
void | SetScale (const gp_Pnt2d &P, const Standard_Real S) |
Changes the transformation into a scale. P is the center of the scale and S is the scaling value. . | |
Standard_EXPORT void | SetTransformation (const gp_Ax2d &FromSystem1, const gp_Ax2d &ToSystem2) |
Changes a transformation allowing passage from the coordinate system "FromSystem1" to the coordinate system "ToSystem2". . | |
Standard_EXPORT void | SetTransformation (const gp_Ax2d &ToSystem) |
Changes the transformation allowing passage from the basic coordinate system {P(0.,0.,0.), VX (1.,0.,0.), VY (0.,1.,0.)} to the local coordinate system defined with the Ax2d ToSystem. . | |
void | SetTranslation (const gp_Vec2d &V) |
Changes the transformation into a translation. V is the vector of the translation. . | |
void | SetTranslation (const gp_Pnt2d &P1, const gp_Pnt2d &P2) |
Makes the transformation into a translation from the point P1 to the point P2. . | |
Standard_EXPORT void | SetTranslationPart (const gp_Vec2d &V) |
Replaces the translation vector with V. . | |
Standard_EXPORT void | SetScaleFactor (const Standard_Real S) |
Modifies the scale factor. . | |
Standard_Boolean | IsNegative () const |
Returns true if the determinant of the vectorial part of this transformation is negative.. . | |
gp_TrsfForm | Form () const |
Returns the nature of the transformation. It can be an identity transformation, a rotation, a translation, a mirror (relative to a point or an axis), a scaling transformation, or a compound transformation. . | |
Standard_Real | ScaleFactor () const |
Returns the scale factor. . | |
const gp_XY & | TranslationPart () const |
Returns the translation part of the transformation's matrix . | |
Standard_EXPORT gp_Mat2d | VectorialPart () const |
Returns the vectorial part of the transformation. It is a 2*2 matrix which includes the scale factor. . | |
const gp_Mat2d & | HVectorialPart () const |
Returns the homogeneous vectorial part of the transformation. It is a 2*2 matrix which doesn't include the scale factor. The coefficients of this matrix must be multiplied by the scale factor to obtain the coefficients of the transformation. . | |
Standard_EXPORT Standard_Real | RotationPart () const |
Returns the angle corresponding to the rotational component of the transformation matrix (operation opposite to SetRotation()). . | |
Standard_Real | Value (const Standard_Integer Row, const Standard_Integer Col) const |
Returns the coefficients of the transformation's matrix. It is a 2 rows * 3 columns matrix. Raises OutOfRange if Row < 1 or Row > 2 or Col < 1 or Col > 3 . | |
Standard_EXPORT void | Invert () |
gp_Trsf2d | Inverted () const |
Computes the reverse transformation. Raises an exception if the matrix of the transformation is not inversible, it means that the scale factor is lower or equal to Resolution from package gp. . | |
gp_Trsf2d | Multiplied (const gp_Trsf2d &T) const |
gp_Trsf2d | operator * (const gp_Trsf2d &T) const |
Standard_EXPORT void | Multiply (const gp_Trsf2d &T) |
Computes the transformation composed from <t> and <me>. In a C++ implementation you can also write Tcomposed = <me> * T. Example : Trsf2d T1, T2, Tcomp; ............... //composition : Tcomp = T2.Multiplied(T1); // or (Tcomp = T2 * T1) // transformation of a point Pnt2d P1(10.,3.,4.); Pnt2d P2 = P1.Transformed(Tcomp); //using Tcomp Pnt2d P3 = P1.Transformed(T1); //using T1 then T2 P3.Transform(T2); // P3 = P2 !!! . | |
void | operator *= (const gp_Trsf2d &T) |
Standard_EXPORT void | PreMultiply (const gp_Trsf2d &T) |
Computes the transformation composed from <me> and T. <me> = T * <me> . | |
Standard_EXPORT void | Power (const Standard_Integer N) |
gp_Trsf2d | Powered (const Standard_Integer N) |
Computes the following composition of transformations <me> * <me> * .......* <me>, N time. if N = 0 <me> = Identity if N < 0 <me> = <me>.Inverse() *...........* <me>.Inverse(). . | |
void | Transforms (Standard_Real &X, Standard_Real &Y) const |
void | Transforms (gp_XY &Coord) const |
Transforms a doublet XY with a Trsf2d . | |
Standard_Real | _CSFDB_Getgp_Trsf2dscale () const |
void | _CSFDB_Setgp_Trsf2dscale (const Standard_Real p) |
gp_TrsfForm | _CSFDB_Getgp_Trsf2dshape () const |
void | _CSFDB_Setgp_Trsf2dshape (const gp_TrsfForm p) |
const gp_Mat2d & | _CSFDB_Getgp_Trsf2dmatrix () const |
const gp_XY & | _CSFDB_Getgp_Trsf2dloc () const |
Private Attributes | |
Standard_Real | scale |
gp_TrsfForm | shape |
gp_Mat2d | matrix |
gp_XY | loc |
Friends | |
Standard_EXPORT friend Handle_Standard_Type & | gp_Trsf2d_Type_ () |
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