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/*
VASP modular - vector assembling signal processor / objects for Max/MSP and PD
Copyright (c) 2002 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_OPDEFS_H
#define __VASP_OPDEFS_H
#include "oploop.h"
#include "opbase.h"
#ifdef VASP_CHN1
#define _D_ALWAYS1 1
#else
#define _D_ALWAYS1 0
#endif
namespace VecOp {
/*! \brief skeleton for unary real operations
*/
template<class T,V FUN(T &v,T a)> BL _F__run(OpParam &p)
{
register const S *sr = p.rsdt;
register S *dr = p.rddt;
register I i;
if(sr == dr)
if(_D_ALWAYS1 || p.rds == 1)
_D_LOOP(i,p.frames)
{ FUN(*dr,*dr); dr++; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*dr); dr += p.rds; }
_E_LOOP
else
if(_D_ALWAYS1 || (p.rss == 1 && p.rds == 1))
_D_LOOP(i,p.frames)
{ FUN(*dr,*sr); sr++,dr++; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*sr); sr += p.rss,dr += p.rds; }
_E_LOOP
return true;
}
template<class T,class CL> inline BL _D__run(OpParam &p) { return _F__run<T,CL::run>(p); }
template<class T,class CL> inline BL d__run(OpParam &p) { return _d__run<T>(CL::run,p); }
/*! \brief skeleton for unary complex operations
*/
template<class T,V FUN(T &rv,T &iv,T ra,T ia)> BL _F__cun(OpParam &p)
{
register const S *sr = p.rsdt,*si = p.isdt;
register S *dr = p.rddt,*di = p.iddt;
register I i;
if(sr == dr && si == di)
if(_D_ALWAYS1 || (p.rds == 1 && p.ids == 1))
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*dr,*di); dr++,di++; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*dr,*di); dr += p.rds,di += p.ids; }
_E_LOOP
else
if(_D_ALWAYS1 || (p.rss == 1 && p.iss == 1 && p.rds == 1 && p.ids == 1))
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*sr,*si); sr++,si++,dr++,di++; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*sr,*si); sr += p.rss,si += p.iss,dr += p.rds,di += p.ids; }
_E_LOOP
return true;
}
template<class T,class CL> inline BL _D__cun(OpParam &p) { return _F__cun<T,CL::cun>(p); }
template<class T,class CL> inline BL d__cun(OpParam &p) { return _d__cun<T>(CL::cun,p); }
/*! \brief skeleton for binary real operations
*/
template<class T,V FUN(T &v,T a,T b)> BL _F__rbin(OpParam &p)
{
register const S *sr = p.rsdt;
register S *dr = p.rddt;
register I i;
if(p.HasArg() && p.arg[0].Is()) {
switch(p.arg[0].argtp) {
case OpParam::Arg::arg_v: {
register const S *ar = p.arg[0].v.rdt;
if(p.rsdt == p.rddt)
if(_D_ALWAYS1 || (p.rds == 1 && p.arg[0].v.rs == 1))
_D_LOOP(i,p.frames)
{ FUN(*dr,*dr,*ar); dr++,ar++; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*dr,*ar); dr += p.rds,ar += p.arg[0].v.rs; }
_E_LOOP
else
if(_D_ALWAYS1 || (p.rss == 1 && p.rds == 1 && p.arg[0].v.rs == 1))
_D_LOOP(i,p.frames)
{ FUN(*dr,*sr,*ar); sr++,dr++,ar++; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*sr,*ar); sr += p.rss,dr += p.rds,ar += p.arg[0].v.rs; }
_E_LOOP
break;
}
case OpParam::Arg::arg_env: {
Env::Iter it(*p.arg[0].e.env); it.Init(0);
if(p.rsdt == p.rddt)
if(_D_ALWAYS1 || p.rds == 1)
_D_LOOP(i,p.frames)
{ FUN(*dr,*dr,it.ValFwd(i)); dr++; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*dr,it.ValFwd(i)); dr += p.rds; }
_E_LOOP
else
if(_D_ALWAYS1 || (p.rss == 1 && p.rds == 1))
_D_LOOP(i,p.frames)
{ FUN(*dr,*sr,it.ValFwd(i)); sr++,dr++; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*sr,it.ValFwd(i)); sr += p.rss,dr += p.rds; }
_E_LOOP
break;
}
case OpParam::Arg::arg_x: {
const R v = p.arg[0].x.r;
if(p.rsdt == p.rddt)
if(_D_ALWAYS1 || p.rds == 1)
_D_LOOP(i,p.frames)
{ FUN(*dr,*dr,v); dr++; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*dr,v); dr += p.rds; }
_E_LOOP
else
if(_D_ALWAYS1 || (p.rss == 1 && p.rds == 1))
_D_LOOP(i,p.frames)
{ FUN(*dr,*sr,v); sr++,dr++; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*sr,v); sr += p.rss,dr += p.rds; }
_E_LOOP
break;
}
}
}
else {
register const S v = p.rbin.arg;
if(p.rsdt == p.rddt)
if(_D_ALWAYS1 || p.rds == 1)
_D_LOOP(i,p.frames)
{ FUN(*dr,*dr,v); dr++; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*dr,v); dr += p.rds; }
_E_LOOP
else
if(_D_ALWAYS1 || (p.rss == 1 && p.rds == 1))
_D_LOOP(i,p.frames)
{ FUN(*dr,*sr,v); sr++,dr++; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*sr,v); sr += p.rss,dr += p.rds; }
_E_LOOP
}
return true;
}
template<class T,class CL> inline BL _D__rbin(OpParam &p) { return _F__rbin<T,CL::rbin>(p); }
template<class T,class CL> inline BL d__rbin(OpParam &p) { return _d__rbin<T>(CL::rbin,p); }
/*! \brief skeleton for binary complex operations
*/
template<class T,V FUN(T &rv,T &iv,T ra,T ia,T rb,T ib)> BL _F__cbin(OpParam &p)
{
register const S *sr = p.rsdt,*si = p.isdt;
register S *dr = p.rddt,*di = p.iddt;
register I i;
if(p.HasArg() && p.arg[0].Is()) {
switch(p.arg[0].argtp) {
case OpParam::Arg::arg_v: {
register const S *ar = p.arg[0].v.rdt,*ai = p.arg[0].v.idt;
if(ai)
if(sr == dr && si == di)
if(_D_ALWAYS1 || (p.rds == 1 && p.ids == 1 && p.arg[0].v.rs == 1 && p.arg[0].v.is == 1))
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*dr,*di,*ar,*ai); dr++,di++,ar++,ai++; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*dr,*di,*ar,*ai); dr += p.rds,di += p.ids,ar += p.arg[0].v.rs,ai += p.arg[0].v.is; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*sr,*si,*ar,*ai); sr += p.rss,si += p.iss,dr += p.rds,di += p.ids,ar += p.arg[0].v.rs,ai += p.arg[0].v.is; }
_E_LOOP
else
if(sr == dr && si == di)
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*dr,*di,*ar,0); dr += p.rds,di += p.ids,ar += p.arg[0].v.rs; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*sr,*si,*ar,0); sr += p.rss,si += p.iss,dr += p.rds,di += p.ids,ar += p.arg[0].v.rs; }
_E_LOOP
break;
}
case OpParam::Arg::arg_env: {
Env::Iter it(*p.arg[0].e.env); it.Init(0);
if(sr == dr && si == di)
if(_D_ALWAYS1 || (p.rds == 1 && p.ids == 1))
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*dr,*di,it.ValFwd(i),0); dr++,di++; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*dr,*di,it.ValFwd(i),0); dr += p.rds,di += p.ids; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*sr,*si,it.ValFwd(i),0); sr += p.rss,si += p.iss,dr += p.rds,di += p.ids; }
_E_LOOP
break;
}
case OpParam::Arg::arg_x: {
register const R ar = p.arg[0].x.r,ai = p.arg[0].x.i;
if(sr == dr && si == di)
if(_D_ALWAYS1 || (p.rds == 1 && p.ids == 1))
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*dr,*di,ar,ai); dr++,di++; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*dr,*di,ar,ai); dr += p.rds,di += p.ids; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*sr,*si,ar,ai); sr += p.rss,si += p.iss,dr += p.rds,di += p.ids; }
_E_LOOP
break;
}
}
}
else {
register const S rv = p.cbin.rarg,iv = p.cbin.iarg;
if(sr == dr && si == di)
if(_D_ALWAYS1 || (p.rds == 1 && p.ids == 1))
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*dr,*di,rv,iv); dr++,di++; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*dr,*di,rv,iv); dr += p.rds,di += p.ids; }
_E_LOOP
else
if(_D_ALWAYS1 || (p.rds == 1 && p.ids == 1 && p.rss == 1 && p.iss == 1))
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*sr,*si,rv,iv); sr++,si++,dr++,di++; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*sr,*si,rv,iv); sr += p.rss,si += p.iss,dr += p.rds,di += p.ids; }
_E_LOOP
}
return true;
}
template<class T,class CL> inline BL _D__cbin(OpParam &p) { return _F__cbin<T,CL::cbin>(p); }
template<class T,class CL> inline BL d__cbin(OpParam &p) { return _d__cbin<T>(CL::cbin,p); }
/*! \brief skeleton for real operations with parameter block
*/
template<class T,V FUN(T &v,T r,OpParam &p)> BL _F__rop(OpParam &p)
{
register const S *sr = p.rsdt;
register S *dr = p.rddt;
register I i;
if(sr == dr)
if(_D_ALWAYS1 || p.rds == 1)
_D_LOOP(i,p.frames)
{ FUN(*dr,*dr,p); dr++; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*dr,p); dr += p.rds; }
_E_LOOP
else
if(_D_ALWAYS1 || (p.rss == 1 && p.rds == 1))
_D_LOOP(i,p.frames)
{ FUN(*dr,*sr,p); sr++,dr++; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*sr,p); sr += p.rss,dr += p.rds; }
_E_LOOP
return true;
}
template<class T,class CL> inline BL _D__rop(OpParam &p) { return _F__rop<T,CL::rop>(p); }
template<class T,class CL> inline BL d__rop(OpParam &p) { return _d__rop<T>(CL::rop,p); }
/*! \brief skeleton for complex operations with parameter block
*/
template<class T,V FUN(T &rv,T &iv,T ra,T ia,OpParam &p)> BL _F__cop(OpParam &p)
{
register const S *sr = p.rsdt,*si = p.isdt;
register S *dr = p.rddt,*di = p.iddt;
register I i;
if(sr == dr && si == di)
if(_D_ALWAYS1 || (p.rds == 1 && p.ids == 1))
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*dr,*di,p); dr++,di++; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*dr,*di,p); dr += p.rds,di += p.ids; }
_E_LOOP
else
if(_D_ALWAYS1 || (p.rss == 1 && p.iss == 1 && p.rds == 1 && p.ids == 1))
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*sr,*si,p); sr++,si++,dr++,di++; }
_E_LOOP
else
_D_LOOP(i,p.frames)
{ FUN(*dr,*di,*sr,*si,p); sr += p.rss,si += p.iss,dr += p.rds,di += p.ids; }
_E_LOOP
return true;
}
template<class T,class CL> inline BL _D__cop(OpParam &p) { return _F__cop<T,CL::cop>(p); }
template<class T,class CL> inline BL d__cop(OpParam &p) { return _d__cop<T>(CL::cop,p); }
template<class T,V FUN(T &v,T a)> inline BL f__run(OpParam &p) { return _d__run(FUN,p); }
template<class T,V FUN(T &rv,T &iv,T ra,T ia)> inline BL f__cun(OpParam &p) { return _d__cun(FUN,p); }
template<class T,V FUN(T &v,T a,T b)> inline BL f__rbin(OpParam &p) { return _d__rbin(FUN,p); }
template<class T,V FUN(T &rv,T &iv,T ra,T ia,T rb,T ib)> inline BL f__cbin(OpParam &p) { return _d__cbin(FUN,p); }
template<class T,V FUN(T &v,T r,OpParam &p)> inline BL f__rop(OpParam &p) { return _d__rop(FUN,p); }
template<class T,V FUN(T &rv,T &iv,T ra,T ia,OpParam &p)> inline BL f__cop(OpParam &p) { return _d__cop(FUN,p); }
#ifdef VASP_COMPACT
template<class T,class CL> inline BL D__run(OpParam &p) { return _d__run<T>(CL::run,p); }
template<class T,class CL> inline BL D__cun(OpParam &p) { return _d__cun<T>(CL::cun,p); }
template<class T,class CL> inline BL D__rbin(OpParam &p) { return _d__rbin<T>(CL::rbin,p); }
template<class T,class CL> inline BL D__cbin(OpParam &p) { return _d__cbin<T>(CL::cbin,p); }
template<class T,class CL> inline BL D__rop(OpParam &p) { return _d__rop<T>(CL::rop,p); }
template<class T,class CL> inline BL D__cop(OpParam &p) { return _d__cop<T>(CL::cop,p); }
template<class T,V FUN(T &v,T a)> inline BL F__run(OpParam &p) { return _d__run(FUN,p); }
template<class T,V FUN(T &rv,T &iv,T ra,T ia)> inline BL F__cun(OpParam &p) { return _d__cun<T>(FUN,p); }
template<class T,V FUN(T &v,T a,T b)> inline BL F__rbin(OpParam &p) { return _d__rbin<T>(FUN,p); }
template<class T,V FUN(T &rv,T &iv,T ra,T ia,T rb,T ib)> inline BL F__cbin(OpParam &p) { return _d__cbin<T>(FUN,p); }
template<class T,V FUN(T &v,T r,OpParam &p)> inline BL F__rop(OpParam &p) { return _d__rop<T>(FUN,p); }
template<class T,V FUN(T &rv,T &iv,T ra,T ia,OpParam &p)> inline BL F__cop(OpParam &p) { return _d__cop<T>(FUN,p); }
#else
template<class T,class CL> inline BL D__run(OpParam &p) { return _D__run<T,CL>(p); }
template<class T,class CL> inline BL D__cun(OpParam &p) { return _D__cun<T,CL>(p); }
template<class T,class CL> inline BL D__rbin(OpParam &p) { return _D__rbin<T,CL>(p); }
template<class T,class CL> inline BL D__cbin(OpParam &p) { return _D__cbin<T,CL>(p); }
template<class T,class CL> inline BL D__rop(OpParam &p) { return _D__rop<T,CL>(p); }
template<class T,class CL> inline BL D__cop(OpParam &p) { return _D__cop<T,CL>(p); }
template<class T,V FUN(T &v,T a)> inline BL F__run(OpParam &p) { return _F__run<T,FUN>(p); }
template<class T,V FUN(T &rv,T &iv,T ra,T ia)> inline BL F__cun(OpParam &p) { return _F__cun<T,FUN>(p); }
template<class T,V FUN(T &v,T a,T b)> inline BL F__rbin(OpParam &p) { return _F__rbin<T,FUN>(p); }
template<class T,V FUN(T &rv,T &iv,T ra,T ia,T rb,T ib)> inline BL F__cbin(OpParam &p) { return _F__cbin<T,FUN>(p); }
template<class T,V FUN(T &v,T r,OpParam &p)> inline BL F__rop(OpParam &p) { return _F__rop<T,FUN>(p); }
template<class T,V FUN(T &rv,T &iv,T ra,T ia,OpParam &p)> inline BL F__cop(OpParam &p) { return _F__cop<T,FUN>(p); }
#endif
} // namespace VecOp
#endif
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