4.8.3.18. GET_FFLEX_NODETACC

GET_FFLEX_NODETACC subroutine returns an acceleration vector for a node of FFlex body. This is an auxiliary subroutine for Nodal_Force and Nodal_Force_Ext.

Table 4.81 Function Name
Language type	Subroutine
FORTRAN	call get_fflex_nodetacc (ifbody,NodeSeq,MKID,nMK,Vel,ErrFlg)
C/C++	get_fflex_nodetacc (ifbody,NodeSeq,MKID[2],2,Acc,&Errflg)

Table 4.82 Parameter information
Variable Name	Size	Description
ifbody	int	Sequential id of FFlex body defined in RecurDyn/Solver. This is a related argument with the 5^th argument of Nodal_Force_Ext subroutine.
NodeSeq	int	Node sequential id defined in RecurDyn/Solver. This is a related argument with the 6^th argument of Nodal_Force_Ext subroutine.
MKID	int [2]	An array of wide-character type (WCHAR). The array size must be 2562 byte. Output variable. Returns a string variable. FFlexBodyName.Node#*
nMK	int	An integer variable for considering base and reference marker. If nMK is 0, then the subroutine returns a global acceleration vector of NodeSeq. If nMK is 1, then the subroutine calculates an acceleration vector considering base marker. If nMK is 2, then the subroutine calculates an acceleration vector considering base and reference marker.
Acc	double[3]	An array of double precision type. The array size must be 3. 3 values mean a relative acceleration vector. \(\frac{{{d}^{2}}}{d{{t}^{2}}}\left\{ \mathbf{A}_{r}^{T}({{\mathbf{r}}_{FFlexNode}}-{{\mathbf{r}}_{b}}) \right\}\) Where, \(\mathbf{A}_{r}^{{}}\) is a orientation matrix of the reference marker (=MKID[1]). \({{\mathbf{r}}_{FFlexNode}}\) is a global position vector of NodeSeq. is a global position vector of the base marker (=MKID[0]).
Errflg	int	Error flag. If the result of this argument is -1 (means TRUE in Fortran logical value), there is no error. The others mean that there is an error.

Code Example

Refer to GET_FFLEX_NODEPOS.