Rotations/Transformations

VectorTransform

Transforms a vector into a different reference frame.

Parameters

Direction Name Type Description
In m double* Pointer to matrix [4x4]
In in double* Pointer to vector [4x1]
Out out double* Pointer to calculated vector [4x1]
Return BOOL Always 0

Usage

plcbit VectorTransform(double* m, double* in, double* out);

VectorTransfromX

Multiplies a vector of any size by a square matrix of the same.

Direction Name Type Description
In m double* Pointer to a matrix [sizexsize]
In in double* Pointer to vector [sizex1]
In size INT Length of vector and size of matrix
Out out double* Pointer to calculated vector [sizex1]
Return BOOL Always 0

Usage

plcbit VectorTransformX(double* m, double* in, double* out, signed short size);

NormalTransform

Transforms a vector into a different reference frame and then normalizes the vector to be a unit vector.

Parameters

Direction Name Type Description
In m double* Pointer to matrix [4x4]
In in double* Pointer to vector [4x1]
Out out double* Pointer to calculated unit vector [4x1]
Return BOOL Always 0

Usage

plcbit NormalTransform(double* m, double* in, double* out);

MatrixRotate (individual)

There are 6 individual MatrixRotate functions: 3 for X/Y/Z about the world axes and 3 for X/Y/Z about the body axes.

A rotation is applied by multiplying a rotation matrix built from the input angle, and the input transformation matrix. Pre-multiplying will rotate around the world axis and post-multiplying will rotate around the body axis.

Parameters

Direction Name Type Description
In Angle double Angle to rotate the matrix by
In In double* Pointer to matrix [4x4] to be rotated
Out Out double* Pointer to matrix [4x4] after rotation
Return BOOL Always 0

Usage

Rotate a transformation matrix about the world X axis.

plcbit MatrixRotateX(double Angle, double* In, double* Out);

Rotate a transformation matrix about the body Z axis.

plcbit MatrixRotateZB(double Angle, double* In, double* Out);

MatrixRotate (multiple)

Does a series of MatrixRotates around the body axes based on the given AngleType.

Parameters

Direction Name Type Description
In AngleType ANGLE_TYPES Euler angle order
In Angles Trans_Orientation_typ Angles to rotate the matrix by
In In double* Pointer to matrix [4x4] to be rotated
Out Out double* Pointer to matrix [4x4] after rotation
Return BOOL 0 on success, 1 if the angle type is not implemented or an addresses is invalid

Usage

Rotate a transformation matrix in the body frame by Angles by applying them in AngleType Euler angle order.

plcbit MatrixRotate(enum ANGLE_TYPES AngleType, Trans_Orientation_typ Angles, double* In, double* Out);

MatrixTranslate

Adds the X, Y, and Z values to the corresponding translation components of the transformation matrix. It is possible to translate along the world frame axes or the body axes.

Parameters

Direction Name Type Description
In In double* Pointer to matrix [4x4]
Out Out double* Pointer to translated matrix [4x4]
In X double Amount to translate matrix by in X
In Y double Amount to translate matrix by in Y
In Z double Amount to translate matrix by in Z
Return BOOL Always 0

Usage

plcbit MatrixTranslate(double* In, double* Out, double X, double Y, double Z);
plcbit MatrixTranslateB(double* In, double* Out, double X, double Y, double Z);

DecompositionRotationMatrix

Converts a 4x4 transformation matrix into a position offset and a set of euler angles.

Parameters

Direction Name Type Description
In M UDINT Pointer to the transformation matrix [4x4]
In Angle_Type USINT Euler angle order
In Angle_ext UDINT Pointer to the current ABC rotation [1x3]
Out X, Y, Z LREAL Calculated cartesian offsets
Out A, B, C LREAL Calculated Euler angles
Out Rot_X, Rot_Y, Rot_Z LREAL[2] Arrays of both Euler angle solutions

Usage

void DecomposeRotationMatrix(struct DecomposeRotationMatrix* inst);

DecompRotMat

Wrapper function to convert a 4x4 transformation matrix into a position offset and a set of euler angles.

Parameters

Direction Name Type Description
In M UDINT Pointer to the transformation matrix [4x4]
In AngleType UDINT Euler angle order
In ApproxAngles UDINT Pointer to the current ABC rotation [1x3]
Out Angles UDINT Pointer to calculated Euler angles in AngleType order [1x3]
Out Origin UDINT Pointer to calculated cartesian offset [1x3]
Return BOOL Always 0

Example

plcbit DecompRotMat(unsigned long M, unsigned long AngleType, unsigned long ApproxAngles, unsigned long Angles, unsigned long Origin);

CoordToGlobal

Info

This function is depreciated.

Transforms a position in a frame to a global position.

Parameters

Direction Name Type Description
In AngleType USINT Euler angle order
In Frame double* Pointer to a matrix [4x4]
In in double* Pointer to a XYZ offset in the input frame [1x3]
Out out double* Pointer to the calculated global XYZ offset [1x3]
Return BOOL Always 0

Usage

plcbit CoordToGlobal(unsigned char AngleType, double* Frame,  double* in, double* out);

CoordToLocal

Info

This function is depreciated.

Transforms a global position into a frame.

Parameters

Direction Name Type Description
In AngleType USINT Euler angle order
In Frame double* Pointer to a matrix [4x4]
In in double* Pointer to a global XYZ offset [1x3]
Out out double* Pointer to the calculated XYZ offset in the input frame [1x3]
Return BOOL Always 0

Usage

plcbit CoordToLocal(unsigned char AngleType, double* Frame,  double* in, double* out);
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