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/**** EulerAngles.h - Support for 24 angle schemes ****/
/**** by Ken Shoemake, shoemake@graphics.cis.upenn.edu ****/
/**** in "Graphics Gems IV", Academic Press, 1994 ****/
#ifndef __EULERANGLES_H__
#define __EULERANGLES_H__
#include "QuatTypes.h"
/*** Order type constants, constructors, extractors ***/
/* There are 24 possible conventions, designated by: */
/* o EulAxI = axis used initially */
/* o EulPar = parity of axis permutation */
/* o EulRep = repetition of initial axis as last */
/* o EulFrm = frame from which axes are taken */
/* Axes I,J,K will be a permutation of X,Y,Z. */
/* Axis H will be either I or K, depending on EulRep. */
/* Frame S takes axes from initial static frame. */
/* If ord = (AxI=X, Par=Even, Rep=No, Frm=S), then */
/* {a,b,c,ord} means Rz(c)Ry(b)Rx(a), where Rz(c)v */
/* rotates v around Z by c radians. */
#define EulFrmS 0
#define EulFrmR 1
#define EulFrm(ord) ((unsigned)(ord)&1)
#define EulRepNo 0
#define EulRepYes 1
#define EulRep(ord) (((unsigned)(ord)>>1)&1)
#define EulParEven 0
#define EulParOdd 1
#define EulPar(ord) (((unsigned)(ord)>>2)&1)
#define EulSafe "\000\001\002\000"
#define EulNext "\001\002\000\001"
#define EulAxI(ord) ((int)(EulSafe[(((unsigned)(ord)>>3)&3)]))
#define EulAxJ(ord) ((int)(EulNext[EulAxI(ord)+(EulPar(ord)==EulParOdd)]))
#define EulAxK(ord) ((int)(EulNext[EulAxI(ord)+(EulPar(ord)!=EulParOdd)]))
#define EulAxH(ord) ((EulRep(ord)==EulRepNo)?EulAxK(ord):EulAxI(ord))
/* EulGetOrd unpacks all useful information about order simultaneously. */
#define EulGetOrd(ord,i,j,k,h,n,s,f) {unsigned o=ord;f=o&1;o>>1;s=o&1;o>>1;\
n=o&1;o>>1;i=EulSafe[o&3];j=EulNext[i+n];k=EulNext[i+1-n];h=s?k:i;}
/* EulOrd creates an order value between 0 and 23 from 4-tuple choices. */
#define EulOrd(i,p,r,f) (((((((i)<<1)+(p))<<1)+(r))<<1)+(f))
/* Static axes */
#define EulOrdXYZs EulOrd(X,EulParEven,EulRepNo,EulFrmS)
#define EulOrdXYXs EulOrd(X,EulParEven,EulRepYes,EulFrmS)
#define EulOrdXZYs EulOrd(X,EulParOdd,EulRepNo,EulFrmS)
#define EulOrdXZXs EulOrd(X,EulParOdd,EulRepYes,EulFrmS)
#define EulOrdYZXs EulOrd(Y,EulParEven,EulRepNo,EulFrmS)
#define EulOrdYZYs EulOrd(Y,EulParEven,EulRepYes,EulFrmS)
#define EulOrdYXZs EulOrd(Y,EulParOdd,EulRepNo,EulFrmS)
#define EulOrdYXYs EulOrd(Y,EulParOdd,EulRepYes,EulFrmS)
#define EulOrdZXYs EulOrd(Z,EulParEven,EulRepNo,EulFrmS)
#define EulOrdZXZs EulOrd(Z,EulParEven,EulRepYes,EulFrmS)
#define EulOrdZYXs EulOrd(Z,EulParOdd,EulRepNo,EulFrmS)
#define EulOrdZYZs EulOrd(Z,EulParOdd,EulRepYes,EulFrmS)
/* Rotating axes */
#define EulOrdZYXr EulOrd(X,EulParEven,EulRepNo,EulFrmR)
#define EulOrdXYXr EulOrd(X,EulParEven,EulRepYes,EulFrmR)
#define EulOrdYZXr EulOrd(X,EulParOdd,EulRepNo,EulFrmR)
#define EulOrdXZXr EulOrd(X,EulParOdd,EulRepYes,EulFrmR)
#define EulOrdXZYr EulOrd(Y,EulParEven,EulRepNo,EulFrmR)
#define EulOrdYZYr EulOrd(Y,EulParEven,EulRepYes,EulFrmR)
#define EulOrdZXYr EulOrd(Y,EulParOdd,EulRepNo,EulFrmR)
#define EulOrdYXYr EulOrd(Y,EulParOdd,EulRepYes,EulFrmR)
#define EulOrdYXZr EulOrd(Z,EulParEven,EulRepNo,EulFrmR)
#define EulOrdZXZr EulOrd(Z,EulParEven,EulRepYes,EulFrmR)
#define EulOrdXYZr EulOrd(Z,EulParOdd,EulRepNo,EulFrmR)
#define EulOrdZYZr EulOrd(Z,EulParOdd,EulRepYes,EulFrmR)
#ifdef __cplusplus
extern "C" {
#endif //__cplusplus
EulerAngles Eul_(float ai, float aj, float ah, int order);
Quat Eul_ToQuat(EulerAngles ea);
void Eul_ToHMatrix(EulerAngles ea, HMatrix M);
EulerAngles Eul_FromHMatrix(HMatrix M, int order);
EulerAngles Eul_FromQuat(Quat q, int order);
#ifdef __cplusplus
}; //extern "C"
#endif //__cplusplus
#endif // __EULERANGLES_H__
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