/* 

VASP modular - vector assembling signal processor / objects for Max/MSP and PD

Copyright (c) 2002-2003 Thomas Grill (xovo@gmx.net)
For information on usage and redistribution, and for a DISCLAIMER OF ALL
WARRANTIES, see the file, "license.txt," in this distribution.  

*/

#ifndef __VASP_OPS_ARITH_H
#define __VASP_OPS_ARITH_H

#include "opfuns.h"

// Arithmetic math functions

DEFOP(S,d_add,add,rbin)
DEFOP(S,d_sub,sub,rbin)
DEFOP(S,d_subr,subr,rbin)
DEFOP(S,d_mul,mul,rbin)
DEFOP(S,d_div,div,rbin)
DEFOP(S,d_divr,divr,rbin)
DEFOP(S,d_mod,mod,rbin)

DEFOP(S,d_sqr,sqr,run)
DEFOP(S,d_ssqr,ssqr,run)

DEFOP(S,d_sign,sign,run)
DEFOP(S,d_abs,abs,run)

DEFOP(S,d_sumq,sumq,rop)


namespace VaspOp {

    inline Vasp *m_add(OpParam &p,CVasp &src,const Argument &arg,CVasp *dst = NULL) { return m_rbin(p,src,arg,dst,VecOp::d_add); } // add to (one vec or real)
	inline Vasp *m_sub(OpParam &p,CVasp &src,const Argument &arg,CVasp *dst = NULL) { return m_rbin(p,src,arg,dst,VecOp::d_sub); } // sub from (one vec or real)
	inline Vasp *m_subr(OpParam &p,CVasp &src,const Argument &arg,CVasp *dst = NULL) { return m_rbin(p,src,arg,dst,VecOp::d_subr); } // reverse sub from (one vec or real)
	inline Vasp *m_mul(OpParam &p,CVasp &src,const Argument &arg,CVasp *dst = NULL) { return m_rbin(p,src,arg,dst,VecOp::d_mul); } // mul with (one vec or real)
	inline Vasp *m_div(OpParam &p,CVasp &src,const Argument &arg,CVasp *dst = NULL) { return m_rbin(p,src,arg,dst,VecOp::d_div); } // div by (one vec or real)
	inline Vasp *m_divr(OpParam &p,CVasp &src,const Argument &arg,CVasp *dst = NULL) { return m_rbin(p,src,arg,dst,VecOp::d_divr); } // reverse div by (one vec or real)
	inline Vasp *m_mod(OpParam &p,CVasp &src,const Argument &arg,CVasp *dst = NULL) { return m_rbin(p,src,arg,dst,VecOp::d_mod); } // modulo by (one vec or real)

	inline Vasp *m_sqr(OpParam &p,CVasp &src,CVasp *dst = NULL) { return m_run(p,src,dst,VecOp::d_sqr); }    // unsigned square 
	inline Vasp *m_ssqr(OpParam &p,CVasp &src,CVasp *dst = NULL) { return m_run(p,src,dst,VecOp::d_ssqr); }   // signed square 

	inline Vasp *m_sign(OpParam &p,CVasp &src,CVasp *dst = NULL) { return m_run(p,src,dst,VecOp::d_sign); }  // sign function 
	inline Vasp *m_abs(OpParam &p,CVasp &src,CVasp *dst = NULL) { return m_run(p,src,dst,VecOp::d_abs); }  // absolute values

	inline Vasp *m_qsum(OpParam &p,CVasp &src) { return m_run(p,src,NULL,VecOp::d_sumq); } // get sum of sample values
}

#endif