1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
|
/*
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_OPS_TRNSC_H
#define __VASP_OPS_TRNSC_H
#include "opbase.h"
// Transcendent math functions
namespace VecOp {
BL d_pow(OpParam &p);
BL d_rpow(OpParam &p);
BL d_sqrt(OpParam &p);
BL d_ssqrt(OpParam &p);
BL d_exp(OpParam &p);
BL d_log(OpParam &p);
}
namespace VaspOp {
inline Vasp *m_pow(OpParam &p,Vasp &src,const Argument &arg,Vasp *dst = NULL) { return m_rbin(p,src,arg,dst,VecOp::d_pow); } // power
Vasp *m_rpow(OpParam &p,Vasp &src,const Argument &arg,Vasp *dst = NULL); // radius power (with each two channels)
inline Vasp *m_sqrt(OpParam &p,Vasp &src,Vasp *dst = NULL) { return m_run(p,src,dst,VecOp::d_sqrt); } // square root (from abs value)
inline Vasp *m_ssqrt(OpParam &p,Vasp &src,Vasp *dst = NULL) { return m_run(p,src,dst,VecOp::d_ssqrt); } // square root (from abs value)
inline Vasp *m_exp(OpParam &p,Vasp &src,Vasp *dst = NULL) { return m_run(p,src,dst,VecOp::d_exp); } // exponential function
inline Vasp *m_log(OpParam &p,Vasp &src,Vasp *dst = NULL) { return m_run(p,src,dst,VecOp::d_log); } // natural logarithm
// inline Vasp *m_cexp(OpParam &p,Vasp &src,Vasp *dst = NULL) { return m_cun(p,src,dst,VecOp::d_cexp); } // complex exponential function
// inline Vasp *m_clog(OpParam &p,Vasp &src,Vasp *dst = NULL) { return m_cun(p,src,dst,VecOp::d_clog); } // complex logarithm (how about branches?)
}
#endif
|
