version 1.11, 2005/09/27 03:00:21 |
version 1.25, 2018/03/29 01:32:50 |
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* DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE, |
* DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE, |
* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE. |
* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE. |
* |
* |
* $OpenXM: OpenXM_contrib2/asir2000/builtin/pf.c,v 1.10 2005/09/08 08:37:02 noro Exp $ |
* $OpenXM: OpenXM_contrib2/asir2000/builtin/pf.c,v 1.24 2018/03/28 05:27:22 noro Exp $ |
*/ |
*/ |
#include "ca.h" |
#include "ca.h" |
#include "math.h" |
#include "math.h" |
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#include <alloca.h> |
#include <alloca.h> |
#endif |
#endif |
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double const_pi(),const_e(); |
double const_pi(),const_e(), double_factorial(); |
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void make_ihyp(void); |
void make_ihyp(void); |
void make_hyp(void); |
void make_hyp(void); |
Line 62 void make_itri(void); |
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Line 62 void make_itri(void); |
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void make_tri(void); |
void make_tri(void); |
void make_exp(void); |
void make_exp(void); |
void simplify_pow(PFINS,Obj *); |
void simplify_pow(PFINS,Obj *); |
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FNODE partial_eval(FNODE f); |
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void Pfunctor(),Pargs(),Pfunargs(),Pvtype(),Pcall(),Pdeval(),Pfunargs_ext(); |
void Pfunctor(),Pargs(),Pfunargs(),Pvtype(),Pcall(),Pdeval(),Pfunargs_ext(); |
void Pregister_handler(); |
void Pregister_handler(); |
void Peval_quote(); |
void Peval_quote(); |
void Pmapat(); |
void Pmapat(), Pmap(); |
void Padd_handler(); |
void Padd_handler(); |
void Plist_handler(); |
void Plist_handler(); |
void Pclear_handler(); |
void Pclear_handler(); |
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struct ftab puref_tab[] = { |
struct ftab puref_tab[] = { |
{"mapat",Pmapat,-99999999}, |
{"mapat",Pmapat,-99999999}, |
{"functor",Pfunctor,1}, |
{"map",Pmap,-99999999}, |
{"args",Pargs,1}, |
{"functor",Pfunctor,1}, |
{"funargs",Pfunargs,1}, |
{"args",Pargs,1}, |
{"funargs_ext",Pfunargs_ext,1}, |
{"funargs",Pfunargs,1}, |
{"register_handler",Pregister_handler,1}, |
{"funargs_ext",Pfunargs_ext,1}, |
{"add_handler",Padd_handler,2}, |
{"register_handler",Pregister_handler,1}, |
{"list_handler",Plist_handler,1}, |
{"add_handler",Padd_handler,2}, |
{"clear_handler",Pclear_handler,1}, |
{"list_handler",Plist_handler,1}, |
{"call",Pcall,2}, |
{"clear_handler",Pclear_handler,1}, |
{"vtype",Pvtype,1}, |
{"call",Pcall,2}, |
{"deval",Pdeval,1}, |
{"vtype",Pvtype,1}, |
{"eval_quote",Peval_quote,-2}, |
{"deval",Pdeval,1}, |
{0,0,0}, |
{"eval_quote",Peval_quote,-2}, |
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{0,0,0}, |
}; |
}; |
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#if defined(PARI) |
int mp_pi(),mp_e(); |
int p_pi(),p_e(); |
int mp_exp(), mp_log(), mp_pow(); |
int p_log(),p_exp(),p_pow(); |
int mp_sin(),mp_cos(),mp_tan(),mp_asin(),mp_acos(),mp_atan(); |
int p_sin(),p_cos(),p_tan(),p_asin(),p_acos(),p_atan(); |
int mp_sinh(),mp_cosh(),mp_tanh(),mp_asinh(),mp_acosh(),mp_atanh(); |
int p_sinh(),p_cosh(),p_tanh(),p_asinh(),p_acosh(),p_atanh(); |
int mp_factorial(),mp_abs(); |
#else |
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int p_pi,p_e; |
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int p_log,p_exp,p_pow; |
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int p_sin,p_cos,p_tan,p_asin,p_acos,p_atan; |
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int p_sinh,p_cosh,p_tanh,p_asinh,p_acosh,p_atanh; |
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#endif |
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static V *uarg,*darg; |
static V *uarg,*darg; |
static P x,y; |
static P x,y; |
Line 108 static PF sindef,cosdef,tandef; |
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Line 104 static PF sindef,cosdef,tandef; |
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static PF asindef,acosdef,atandef; |
static PF asindef,acosdef,atandef; |
static PF sinhdef,coshdef,tanhdef; |
static PF sinhdef,coshdef,tanhdef; |
static PF asinhdef,acoshdef,atanhdef; |
static PF asinhdef,acoshdef,atanhdef; |
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static PF factorialdef,absdef; |
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#define OALLOC(p,n) ((p)=(Obj *)CALLOC((n),sizeof(Obj))) |
#define OALLOC(p,n) ((p)=(Obj *)CALLOC((n),sizeof(Obj))) |
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double const_pi() { return 3.14159265358979323846264338327950288; } |
double const_pi() { return 3.14159265358979323846264338327950288; } |
double const_e() { return 2.718281828459045235360287471352662497; } |
double const_e() { return 2.718281828459045235360287471352662497; } |
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double double_factorial(double x) |
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{ |
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return tgamma(x+1); |
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} |
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int simplify_elemfunc_ins(); |
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int simplify_factorial_ins(); |
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int simplify_abs_ins(); |
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void pf_init() { |
void pf_init() { |
uarg = (V *)CALLOC(1,sizeof(V)); |
uarg = (V *)CALLOC(1,sizeof(V)); |
uarg[0] = &oVAR[26]; MKV(uarg[0],x); |
uarg[0] = &oVAR[26]; MKV(uarg[0],x); |
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darg = (V *)CALLOC(2,sizeof(V)); |
darg = (V *)CALLOC(2,sizeof(V)); |
darg[0] = &oVAR[26]; |
darg[0] = &oVAR[26]; |
darg[1] = &oVAR[27]; MKV(darg[1],y); |
darg[1] = &oVAR[27]; MKV(darg[1],y); |
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mkpf("@pi",0,0,0,(int (*)())p_pi,const_pi,0,&pidef); |
mkpf("@pi",0,0,0,(int (*)())mp_pi,const_pi,simplify_elemfunc_ins,&pidef); |
mkpf("@e",0,0,0,(int (*)())p_e,const_e,0,&edef); |
mkpf("@e",0,0,0,(int (*)())mp_e,const_e,simplify_elemfunc_ins,&edef); |
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mkpf("log",0,1,uarg,(int (*)())p_log,log,0,&logdef); |
mkpf("factorial",0,1,uarg,(int (*)())mp_factorial,double_factorial,simplify_factorial_ins,&factorialdef); |
mkpf("exp",0,1,uarg,(int (*)())p_exp,exp,0,&expdef); |
mkpf("abs",0,1,uarg,(int (*)())mp_abs,fabs,simplify_abs_ins,&absdef); |
mkpf("pow",0,2,darg,(int (*)())p_pow,pow,(int (*)())simplify_pow,&powdef); |
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mkpf("sin",0,1,uarg,(int (*)())p_sin,sin,0,&sindef); |
mkpf("log",0,1,uarg,(int (*)())mp_log,log,simplify_elemfunc_ins,&logdef); |
mkpf("cos",0,1,uarg,(int (*)())p_cos,cos,0,&cosdef); |
mkpf("exp",0,1,uarg,(int (*)())mp_exp,exp,simplify_elemfunc_ins,&expdef); |
mkpf("tan",0,1,uarg,(int (*)())p_tan,tan,0,&tandef); |
mkpf("pow",0,2,darg,(int (*)())mp_pow,pow,(int (*)())simplify_pow,&powdef); |
mkpf("asin",0,1,uarg,(int (*)())p_asin,asin,0,&asindef); |
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mkpf("acos",0,1,uarg,(int (*)())p_acos,acos,0,&acosdef); |
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mkpf("atan",0,1,uarg,(int (*)())p_atan,atan,0,&atandef); |
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mkpf("sinh",0,1,uarg,(int (*)())p_sinh,sinh,0,&sinhdef); |
mkpf("sin",0,1,uarg,(int (*)())mp_sin,sin,simplify_elemfunc_ins,&sindef); |
mkpf("cosh",0,1,uarg,(int (*)())p_cosh,cosh,0,&coshdef); |
mkpf("cos",0,1,uarg,(int (*)())mp_cos,cos,simplify_elemfunc_ins,&cosdef); |
mkpf("tanh",0,1,uarg,(int (*)())p_tanh,tanh,0,&tanhdef); |
mkpf("tan",0,1,uarg,(int (*)())mp_tan,tan,simplify_elemfunc_ins,&tandef); |
#if !defined(VISUAL) |
mkpf("asin",0,1,uarg,(int (*)())mp_asin,asin,simplify_elemfunc_ins,&asindef); |
mkpf("asinh",0,1,uarg,(int (*)())p_asinh,asinh,0,&asinhdef); |
mkpf("acos",0,1,uarg,(int (*)())mp_acos,acos,simplify_elemfunc_ins,&acosdef); |
mkpf("acosh",0,1,uarg,(int (*)())p_acosh,acosh,0,&acoshdef); |
mkpf("atan",0,1,uarg,(int (*)())mp_atan,atan,simplify_elemfunc_ins,&atandef); |
mkpf("atanh",0,1,uarg,(int (*)())p_atanh,atanh,0,&atanhdef); |
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mkpf("sinh",0,1,uarg,(int (*)())mp_sinh,sinh,simplify_elemfunc_ins,&sinhdef); |
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mkpf("cosh",0,1,uarg,(int (*)())mp_cosh,cosh,simplify_elemfunc_ins,&coshdef); |
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mkpf("tanh",0,1,uarg,(int (*)())mp_tanh,tanh,simplify_elemfunc_ins,&tanhdef); |
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#if !defined(VISUAL) && !defined(__MINGW32__) |
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mkpf("asinh",0,1,uarg,(int (*)())mp_asinh,asinh,simplify_elemfunc_ins,&asinhdef); |
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mkpf("acosh",0,1,uarg,(int (*)())mp_acosh,acosh,simplify_elemfunc_ins,&acoshdef); |
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mkpf("atanh",0,1,uarg,(int (*)())mp_atanh,atanh,simplify_elemfunc_ins,&atanhdef); |
#endif |
#endif |
make_exp(); |
make_exp(); |
make_tri(); |
make_tri(); |
make_itri(); |
make_itri(); |
make_hyp(); |
make_hyp(); |
#if !defined(VISUAL) |
#if !defined(VISUAL) && !defined(__MINGW32__) |
make_ihyp(); |
make_ihyp(); |
#endif |
#endif |
} |
} |
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void make_exp() { |
void make_exp() { |
V v; |
V v; |
P u,vexp,vlog,vpow; |
P u,vexp,vlog,vpow; |
Obj *args; |
Obj *args; |
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mkpfins(expdef,uarg,&v); MKV(v,vexp); |
mkpfins(expdef,uarg,&v); MKV(v,vexp); |
mkpfins(powdef,darg,&v); MKV(v,vpow); |
mkpfins(powdef,darg,&v); MKV(v,vpow); |
mkpfins(logdef,uarg,&v); MKV(v,vlog); |
mkpfins(logdef,uarg,&v); MKV(v,vlog); |
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/* d/dx(log(x)) = 1/x */ |
/* d/dx(log(x)) = 1/x */ |
OALLOC(logdef->deriv,1); divr(CO,(Obj)ONE,(Obj)x,&logdef->deriv[0]); |
OALLOC(logdef->deriv,1); divr(CO,(Obj)ONE,(Obj)x,&logdef->deriv[0]); |
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/* d/dx(exp(x)) = exp(x) */ |
/* d/dx(exp(x)) = exp(x) */ |
OALLOC(expdef->deriv,1); expdef->deriv[0] = (Obj)vexp; |
OALLOC(expdef->deriv,1); expdef->deriv[0] = (Obj)vexp; |
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/* d/dy(x^y) = log(x)*x^y */ |
/* d/dy(x^y) = log(x)*x^y */ |
OALLOC(powdef->deriv,2); mulp(CO,vpow,vlog,(P *)&powdef->deriv[1]); |
OALLOC(powdef->deriv,2); mulp(CO,vpow,vlog,(P *)&powdef->deriv[1]); |
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/* d/dx(x^y) = y*x^(y-1) */ |
/* d/dx(x^y) = y*x^(y-1) */ |
args = (Obj *)ALLOCA(2*sizeof(Obj)); |
args = (Obj *)ALLOCA(2*sizeof(Obj)); |
args[0] = (Obj)x; subp(CO,y,(P)ONE,(P *)&args[1]); |
args[0] = (Obj)x; subp(CO,y,(P)ONE,(P *)&args[1]); |
_mkpfins(powdef,args,&v); MKV(v,u); |
_mkpfins(powdef,args,&v); MKV(v,u); |
mulr(CO,(Obj)u,(Obj)y,&powdef->deriv[0]); |
mulr(CO,(Obj)u,(Obj)y,&powdef->deriv[0]); |
} |
} |
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void make_tri() { |
void make_tri() { |
V v; |
V v; |
P vcos,vsin,vtan,t; |
P vcos,vsin,vtan,t; |
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mkpfins(cosdef,uarg,&v); MKV(v,vcos); |
mkpfins(cosdef,uarg,&v); MKV(v,vcos); |
mkpfins(sindef,uarg,&v); MKV(v,vsin); |
mkpfins(sindef,uarg,&v); MKV(v,vsin); |
mkpfins(tandef,uarg,&v); MKV(v,vtan); |
mkpfins(tandef,uarg,&v); MKV(v,vtan); |
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/* d/dx(sin(x)) = cos(x) */ |
/* d/dx(sin(x)) = cos(x) */ |
OALLOC(sindef->deriv,1); sindef->deriv[0] = (Obj)vcos; |
OALLOC(sindef->deriv,1); sindef->deriv[0] = (Obj)vcos; |
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/* d/dx(cos(x)) = -sin(x) */ |
/* d/dx(cos(x)) = -sin(x) */ |
OALLOC(cosdef->deriv,1); chsgnp(vsin,(P *)&cosdef->deriv[0]); |
OALLOC(cosdef->deriv,1); chsgnp(vsin,(P *)&cosdef->deriv[0]); |
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/* d/dx(tan(x)) = 1+tan(x)^2 */ |
/* d/dx(tan(x)) = 1+tan(x)^2 */ |
OALLOC(tandef->deriv,1); |
OALLOC(tandef->deriv,1); |
mulr(CO,(Obj)vtan,(Obj)vtan,(Obj *)&t); addp(CO,(P)ONE,t,(P *)&tandef->deriv[0]); |
mulr(CO,(Obj)vtan,(Obj)vtan,(Obj *)&t); addp(CO,(P)ONE,t,(P *)&tandef->deriv[0]); |
} |
} |
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void make_itri() { |
void make_itri() { |
P t,xx; |
P t,xx; |
Q mtwo; |
Q mtwo; |
V v; |
V v; |
Obj *args; |
Obj *args; |
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/* d/dx(asin(x)) = (1-x^2)^(-1/2) */ |
/* d/dx(asin(x)) = (1-x^2)^(-1/2) */ |
OALLOC(asindef->deriv,1); |
OALLOC(asindef->deriv,1); |
args = (Obj *)ALLOCA(2*sizeof(Obj)); |
args = (Obj *)ALLOCA(2*sizeof(Obj)); |
mulp(CO,x,x,&xx); subp(CO,(P)ONE,xx,(P *)&args[0]); |
mulp(CO,x,x,&xx); subp(CO,(P)ONE,xx,(P *)&args[0]); |
STOQ(-2,mtwo); divq(ONE,mtwo,(Q *)&args[1]); |
STOQ(-2,mtwo); divq(ONE,mtwo,(Q *)&args[1]); |
_mkpfins(powdef,args,&v); MKV(v,t); |
_mkpfins(powdef,args,&v); MKV(v,t); |
asindef->deriv[0] = (Obj)t; |
asindef->deriv[0] = (Obj)t; |
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/* d/dx(acos(x)) = -(1-x^2)^(-1/2) */ |
/* d/dx(acos(x)) = -(1-x^2)^(-1/2) */ |
OALLOC(acosdef->deriv,1); chsgnp((P)asindef->deriv[0],(P *)&acosdef->deriv[0]); |
OALLOC(acosdef->deriv,1); chsgnp((P)asindef->deriv[0],(P *)&acosdef->deriv[0]); |
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/* d/dx(atan(x)) = 1/(x^2+1) */ |
/* d/dx(atan(x)) = 1/(x^2+1) */ |
OALLOC(atandef->deriv,1); |
OALLOC(atandef->deriv,1); |
addp(CO,(P)ONE,xx,&t); divr(CO,(Obj)ONE,(Obj)t,&atandef->deriv[0]); |
addp(CO,(P)ONE,xx,&t); divr(CO,(Obj)ONE,(Obj)t,&atandef->deriv[0]); |
} |
} |
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void make_hyp() { |
void make_hyp() { |
V v; |
V v; |
P vcosh,vsinh,vtanh,t; |
P vcosh,vsinh,vtanh,t; |
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mkpfins(coshdef,uarg,&v); MKV(v,vcosh); |
mkpfins(coshdef,uarg,&v); MKV(v,vcosh); |
mkpfins(sinhdef,uarg,&v); MKV(v,vsinh); |
mkpfins(sinhdef,uarg,&v); MKV(v,vsinh); |
mkpfins(tanhdef,uarg,&v); MKV(v,vtanh); |
mkpfins(tanhdef,uarg,&v); MKV(v,vtanh); |
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/* d/dx(sinh(x)) = cosh(x) */ |
/* d/dx(sinh(x)) = cosh(x) */ |
OALLOC(sinhdef->deriv,1); sinhdef->deriv[0] = (Obj)vcosh; |
OALLOC(sinhdef->deriv,1); sinhdef->deriv[0] = (Obj)vcosh; |
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/* d/dx(cosh(x)) = sinh(x) */ |
/* d/dx(cosh(x)) = sinh(x) */ |
OALLOC(coshdef->deriv,1); coshdef->deriv[0] = (Obj)vsinh; |
OALLOC(coshdef->deriv,1); coshdef->deriv[0] = (Obj)vsinh; |
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/* d/dx(tanh(x)) = 1-tanh(x)^2 */ |
/* d/dx(tanh(x)) = 1-tanh(x)^2 */ |
OALLOC(tanhdef->deriv,1); |
OALLOC(tanhdef->deriv,1); |
mulr(CO,(Obj)vtanh,(Obj)vtanh,(Obj *)&t); subp(CO,(P)ONE,t,(P *)&tanhdef->deriv[0]); |
mulr(CO,(Obj)vtanh,(Obj)vtanh,(Obj *)&t); subp(CO,(P)ONE,t,(P *)&tanhdef->deriv[0]); |
} |
} |
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void make_ihyp() { |
void make_ihyp() { |
P t,xx; |
P t,xx; |
Q mtwo; |
Q mtwo; |
V v; |
V v; |
Obj *args; |
Obj *args; |
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/* d/dx(asinh(x)) = (1+x^2)^(-1/2) */ |
/* d/dx(asinh(x)) = (1+x^2)^(-1/2) */ |
OALLOC(asinhdef->deriv,1); |
OALLOC(asinhdef->deriv,1); |
args = (Obj *)ALLOCA(2*sizeof(Obj)); |
args = (Obj *)ALLOCA(2*sizeof(Obj)); |
mulp(CO,x,x,&xx); addp(CO,(P)ONE,xx,(P *)&args[0]); |
mulp(CO,x,x,&xx); addp(CO,(P)ONE,xx,(P *)&args[0]); |
STOQ(-2,mtwo); divq(ONE,mtwo,(Q *)&args[1]); |
STOQ(-2,mtwo); divq(ONE,mtwo,(Q *)&args[1]); |
_mkpfins(powdef,args,&v); MKV(v,t); |
_mkpfins(powdef,args,&v); MKV(v,t); |
asinhdef->deriv[0] = (Obj)t; |
asinhdef->deriv[0] = (Obj)t; |
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/* d/dx(acosh(x)) = (x^2-1)^(-1/2) */ |
/* d/dx(acosh(x)) = (x^2-1)^(-1/2) */ |
OALLOC(acoshdef->deriv,1); |
OALLOC(acoshdef->deriv,1); |
subp(CO,xx,(P)ONE,(P *)&args[0]); |
subp(CO,xx,(P)ONE,(P *)&args[0]); |
_mkpfins(powdef,args,&v); MKV(v,t); |
_mkpfins(powdef,args,&v); MKV(v,t); |
acoshdef->deriv[0] = (Obj)t; |
acoshdef->deriv[0] = (Obj)t; |
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/* d/dx(atanh(x)) = 1/(1-x^2) */ |
/* d/dx(atanh(x)) = 1/(1-x^2) */ |
OALLOC(atanhdef->deriv,1); |
OALLOC(atanhdef->deriv,1); |
subp(CO,(P)ONE,xx,&t); divr(CO,(Obj)ONE,(Obj)t,&atanhdef->deriv[0]); |
subp(CO,(P)ONE,xx,&t); divr(CO,(Obj)ONE,(Obj)t,&atanhdef->deriv[0]); |
} |
} |
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void mkpow(vl,a,e,r) |
void mkpow(vl,a,e,r) |
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Obj e; |
Obj e; |
Obj *r; |
Obj *r; |
{ |
{ |
PFINS ins; |
PFINS ins; |
PFAD ad; |
PFAD ad; |
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ins = (PFINS)CALLOC(1,sizeof(PF)+2*sizeof(struct oPFAD)); |
ins = (PFINS)CALLOC(1,sizeof(PF)+2*sizeof(struct oPFAD)); |
ins->pf = powdef; ad = ins->ad; |
ins->pf = powdef; ad = ins->ad; |
ad[0].d = 0; ad[0].arg = a; ad[1].d = 0; ad[1].arg = e; |
ad[0].d = 0; ad[0].arg = a; ad[1].d = 0; ad[1].arg = e; |
simplify_ins(ins,r); |
simplify_ins(ins,r); |
} |
} |
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extern int evalef; |
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void simplify_pow(ins,rp) |
void simplify_pow(ins,rp) |
PFINS ins; |
PFINS ins; |
Obj *rp; |
Obj *rp; |
{ |
{ |
PF pf; |
PF pf; |
PFAD ad; |
PFAD ad; |
Obj a0,a1; |
Obj a0,a1; |
V v; |
V v; |
P t; |
P t; |
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pf = ins->pf; ad = ins->ad; a0 = ad[0].arg; a1 = ad[1].arg; |
if ( evalef ) { |
if ( !a1 ) |
simplify_elemfunc_ins(ins,rp); |
*rp = (Obj)ONE; |
return; |
else if ( !a0 ) { |
} |
if ( RATN(a1) && SGN((Q)a1)>0 ) |
pf = ins->pf; ad = ins->ad; a0 = ad[0].arg; a1 = ad[1].arg; |
*rp = 0; |
if ( !a1 ) |
else if ( RATN(a1) && SGN((Q)a1) < 0 ) |
*rp = (Obj)ONE; |
error("simplify_pow : division by 0"); |
else if ( !a0 ) { |
else { |
if ( RATN(a1) && SGN((Q)a1)>0 ) |
instov(ins,&v); MKV(v,t); *rp = (Obj)t; |
*rp = 0; |
} |
else if ( RATN(a1) && SGN((Q)a1) < 0 ) |
} else if ( NUM(a1) && INT(a1) ) |
error("simplify_pow : division by 0"); |
arf_pwr(CO,a0,a1,rp); |
else { |
else { |
instoobj(ins,rp); |
instov(ins,&v); MKV(v,t); *rp = (Obj)t; |
} |
} |
} else if ( NUM(a1) && INT(a1) ) |
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arf_pwr(CO,a0,a1,rp); |
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else { |
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instoobj(ins,rp); |
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} |
} |
} |
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#define ISPFINS(p)\ |
#define ISPFINS(p)\ |
Line 314 void Pfunctor(arg,rp) |
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Line 329 void Pfunctor(arg,rp) |
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NODE arg; |
NODE arg; |
P *rp; |
P *rp; |
{ |
{ |
P p; |
P p; |
FUNC t; |
FUNC t; |
PF pf; |
PF pf; |
PFINS ins; |
PFINS ins; |
|
|
p = (P)ARG0(arg); |
p = (P)ARG0(arg); |
if ( !ISPFINS(p) ) |
if ( !ISPFINS(p) ) |
*rp = 0; |
*rp = 0; |
else { |
else { |
ins = (PFINS)VR(p)->priv; pf = ins->pf; |
ins = (PFINS)VR(p)->priv; pf = ins->pf; |
t = (FUNC)MALLOC(sizeof(struct oFUNC)); |
t = (FUNC)MALLOC(sizeof(struct oFUNC)); |
t->name = t->fullname = pf->name; t->id = A_PURE; t->argc = pf->argc; |
t->name = t->fullname = pf->name; t->id = A_PURE; t->argc = pf->argc; |
t->f.puref = pf; |
t->f.puref = pf; |
makesrvar(t,rp); |
makesrvar(t,rp); |
} |
} |
} |
} |
|
|
void Pargs(arg,rp) |
void Pargs(arg,rp) |
NODE arg; |
NODE arg; |
LIST *rp; |
LIST *rp; |
{ |
{ |
P p; |
P p; |
PF pf; |
PF pf; |
PFAD ad; |
PFAD ad; |
PFINS ins; |
PFINS ins; |
NODE n,n0; |
NODE n,n0; |
int i; |
int i; |
|
|
p = (P)ARG0(arg); |
p = (P)ARG0(arg); |
if ( !ISPFINS(p) ) |
if ( !ISPFINS(p) ) |
*rp = 0; |
*rp = 0; |
else { |
else { |
ins = (PFINS)VR(p)->priv; ad = ins->ad; pf = ins->pf; |
ins = (PFINS)VR(p)->priv; ad = ins->ad; pf = ins->pf; |
for ( i = 0, n0 = 0; i < pf->argc; i++ ) { |
for ( i = 0, n0 = 0; i < pf->argc; i++ ) { |
NEXTNODE(n0,n); BDY(n) = (pointer)ad[i].arg; |
NEXTNODE(n0,n); BDY(n) = (pointer)ad[i].arg; |
} |
} |
if ( n0 ) |
if ( n0 ) |
NEXT(n) = 0; |
NEXT(n) = 0; |
MKLIST(*rp,n0); |
MKLIST(*rp,n0); |
} |
} |
} |
} |
|
|
void Pfunargs(arg,rp) |
void Pfunargs(arg,rp) |
NODE arg; |
NODE arg; |
LIST *rp; |
LIST *rp; |
{ |
{ |
P p; |
P p; |
P f; |
P f; |
FUNC t; |
FUNC t; |
PF pf; |
PF pf; |
PFINS ins; |
PFINS ins; |
PFAD ad; |
PFAD ad; |
NODE n,n0; |
NODE n,n0; |
int i; |
int i; |
|
|
p = (P)ARG0(arg); |
p = (P)ARG0(arg); |
if ( !ISPFINS(p) ) |
if ( !ISPFINS(p) ) |
*rp = 0; |
*rp = 0; |
else { |
else { |
ins = (PFINS)VR(p)->priv; ad = ins->ad; pf = ins->pf; |
ins = (PFINS)VR(p)->priv; ad = ins->ad; pf = ins->pf; |
t = (FUNC)MALLOC(sizeof(struct oFUNC)); |
t = (FUNC)MALLOC(sizeof(struct oFUNC)); |
t->name = t->fullname = pf->name; t->id = A_PURE; t->argc = pf->argc; |
t->name = t->fullname = pf->name; t->id = A_PURE; t->argc = pf->argc; |
t->f.puref = pf; |
t->f.puref = pf; |
makesrvar(t,&f); |
makesrvar(t,&f); |
n = n0 = 0; NEXTNODE(n0,n); BDY(n) = (pointer)f; |
n = n0 = 0; NEXTNODE(n0,n); BDY(n) = (pointer)f; |
for ( i = 0; i < pf->argc; i++ ) { |
for ( i = 0; i < pf->argc; i++ ) { |
NEXTNODE(n0,n); BDY(n) = (pointer)ad[i].arg; |
NEXTNODE(n0,n); BDY(n) = (pointer)ad[i].arg; |
} |
} |
NEXT(n) = 0; |
NEXT(n) = 0; |
MKLIST(*rp,n0); |
MKLIST(*rp,n0); |
} |
} |
} |
} |
|
|
void Pfunargs_ext(arg,rp) |
void Pfunargs_ext(arg,rp) |
NODE arg; |
NODE arg; |
LIST *rp; |
LIST *rp; |
{ |
{ |
P p; |
P p; |
P f; |
P f; |
FUNC t; |
FUNC t; |
PF pf; |
PF pf; |
PFINS ins; |
PFINS ins; |
PFAD ad; |
PFAD ad; |
NODE n,n0,d,d0,a,a0; |
NODE n,n0,d,d0,a,a0; |
LIST alist,dlist; |
LIST alist,dlist; |
Q q; |
Q q; |
int i; |
int i; |
|
|
p = (P)ARG0(arg); |
p = (P)ARG0(arg); |
if ( !ISPFINS(p) ) |
if ( !ISPFINS(p) ) |
*rp = 0; |
*rp = 0; |
else { |
else { |
ins = (PFINS)VR(p)->priv; ad = ins->ad; pf = ins->pf; |
ins = (PFINS)VR(p)->priv; ad = ins->ad; pf = ins->pf; |
t = (FUNC)MALLOC(sizeof(struct oFUNC)); |
t = (FUNC)MALLOC(sizeof(struct oFUNC)); |
t->name = t->fullname = pf->name; t->id = A_PURE; t->argc = pf->argc; |
t->name = t->fullname = pf->name; t->id = A_PURE; t->argc = pf->argc; |
t->f.puref = pf; |
t->f.puref = pf; |
makesrvar(t,&f); |
makesrvar(t,&f); |
|
|
d0 = a0 = 0; |
d0 = a0 = 0; |
for ( i = 0; i < pf->argc; i++ ) { |
for ( i = 0; i < pf->argc; i++ ) { |
NEXTNODE(d0,d); STOQ(ad[i].d,q); BDY(d) = (pointer)q; |
NEXTNODE(d0,d); STOQ(ad[i].d,q); BDY(d) = (pointer)q; |
NEXTNODE(a0,a); BDY(a) = (pointer)ad[i].arg; |
NEXTNODE(a0,a); BDY(a) = (pointer)ad[i].arg; |
} |
} |
NEXT(d) = 0; NEXT(a) = 0; MKLIST(alist,a0); MKLIST(dlist,d0); |
NEXT(d) = 0; NEXT(a) = 0; MKLIST(alist,a0); MKLIST(dlist,d0); |
|
|
n0 = mknode(3,f,dlist,alist); |
n0 = mknode(3,f,dlist,alist); |
MKLIST(*rp,n0); |
MKLIST(*rp,n0); |
} |
} |
} |
} |
|
|
void Pvtype(arg,rp) |
void Pvtype(arg,rp) |
NODE arg; |
NODE arg; |
Q *rp; |
Q *rp; |
{ |
{ |
P p; |
P p; |
|
|
p = (P)ARG0(arg); |
p = (P)ARG0(arg); |
if ( !p || ID(p) != O_P ) |
if ( !p || ID(p) != O_P ) |
*rp = 0; |
*rp = 0; |
else |
else |
STOQ((int)VR(p)->attr,*rp); |
STOQ((int)VR(p)->attr,*rp); |
} |
} |
|
|
extern NODE user_int_handler,user_quit_handler; |
extern NODE user_int_handler,user_quit_handler; |
Line 443 void Pregister_handler(arg,rp) |
|
Line 458 void Pregister_handler(arg,rp) |
|
NODE arg; |
NODE arg; |
Q *rp; |
Q *rp; |
{ |
{ |
P p; |
P p; |
V v; |
V v; |
NODE n; |
NODE n; |
FUNC func; |
FUNC func; |
|
|
p = (P)ARG0(arg); |
p = (P)ARG0(arg); |
if ( !p ) { |
if ( !p ) { |
user_int_handler = 0; |
user_int_handler = 0; |
*rp = 0; |
*rp = 0; |
return; |
return; |
} else if ( OID(p) != 2 ) |
} else if ( OID(p) != 2 ) |
error("register_hanlder : invalid argument"); |
error("register_hanlder : invalid argument"); |
v = VR(p); |
v = VR(p); |
if ( (int)v->attr != V_SR ) |
if ( (int)v->attr != V_SR ) |
error("register_hanlder : no such function"); |
error("register_hanlder : no such function"); |
else { |
else { |
func = (FUNC)v->priv; |
func = (FUNC)v->priv; |
if ( func->argc ) |
if ( func->argc ) |
error("register_hanlder : the function must be with no argument"); |
error("register_hanlder : the function must be with no argument"); |
else { |
else { |
MKNODE(n,(pointer)func,user_int_handler); |
MKNODE(n,(pointer)func,user_int_handler); |
user_int_handler = n; |
user_int_handler = n; |
*rp = ONE; |
*rp = ONE; |
} |
} |
} |
} |
} |
} |
|
|
void Padd_handler(arg,rp) |
void Padd_handler(arg,rp) |
NODE arg; |
NODE arg; |
Q *rp; |
Q *rp; |
{ |
{ |
P p; |
P p; |
V v; |
V v; |
NODE n; |
NODE n; |
FUNC func; |
FUNC func; |
char *name; |
char *name; |
NODE *hlistp; |
NODE *hlistp; |
|
|
asir_assert(ARG0(arg),O_STR,"add_handler"); |
asir_assert(ARG0(arg),O_STR,"add_handler"); |
name = BDY((STRING)ARG0(arg)); |
name = BDY((STRING)ARG0(arg)); |
p = (P)ARG1(arg); |
p = (P)ARG1(arg); |
if ( !strcmp(name,"intr") ) |
if ( !strcmp(name,"intr") ) |
hlistp = &user_int_handler; |
hlistp = &user_int_handler; |
else if ( !strcmp(name,"quit") ) |
else if ( !strcmp(name,"quit") ) |
hlistp = &user_quit_handler; |
hlistp = &user_quit_handler; |
else |
else |
error("add_handler : invalid keyword (must be \"intr\" or \"quit\")"); |
error("add_handler : invalid keyword (must be \"intr\" or \"quit\")"); |
if ( !p ) { |
if ( !p ) { |
*hlistp = 0; *rp = 0; |
*hlistp = 0; *rp = 0; |
return; |
return; |
} |
} |
if ( OID(p) == 2 ) { |
if ( OID(p) == 2 ) { |
v = VR(p); |
v = VR(p); |
if ( (int)v->attr != V_SR ) |
if ( (int)v->attr != V_SR ) |
error("add_hanlder : no such function"); |
error("add_hanlder : no such function"); |
func = (FUNC)v->priv; |
func = (FUNC)v->priv; |
} else if ( OID(p) == O_STR ) { |
} else if ( OID(p) == O_STR ) { |
gen_searchf_searchonly(BDY((STRING)p),&func); |
gen_searchf_searchonly(BDY((STRING)p),&func); |
if ( !func ) |
if ( !func ) |
error("add_hanlder : no such function"); |
error("add_hanlder : no such function"); |
} |
} |
if ( func->argc ) |
if ( func->argc ) |
error("register_hanlder : the function must be with no argument"); |
error("register_hanlder : the function must be with no argument"); |
else { |
else { |
MKNODE(n,(pointer)func,*hlistp); |
MKNODE(n,(pointer)func,*hlistp); |
*hlistp = n; |
*hlistp = n; |
*rp = ONE; |
*rp = ONE; |
} |
} |
} |
} |
|
|
void Plist_handler(arg,rp) |
void Plist_handler(arg,rp) |
NODE arg; |
NODE arg; |
LIST *rp; |
LIST *rp; |
{ |
{ |
NODE r0,r,t; |
NODE r0,r,t; |
char *name; |
char *name; |
NODE hlist; |
NODE hlist; |
STRING fname; |
STRING fname; |
|
|
asir_assert(ARG0(arg),O_STR,"list_handler"); |
asir_assert(ARG0(arg),O_STR,"list_handler"); |
name = BDY((STRING)ARG0(arg)); |
name = BDY((STRING)ARG0(arg)); |
if ( !strcmp(name,"intr") ) |
if ( !strcmp(name,"intr") ) |
hlist = user_int_handler; |
hlist = user_int_handler; |
else if ( !strcmp(name,"quit") ) |
else if ( !strcmp(name,"quit") ) |
hlist = user_quit_handler; |
hlist = user_quit_handler; |
else |
else |
error("list_handler : invalid keyword (must be \"intr\" or \"quit\")"); |
error("list_handler : invalid keyword (must be \"intr\" or \"quit\")"); |
for ( r0 = 0, t = hlist; t; t = NEXT(t) ) { |
for ( r0 = 0, t = hlist; t; t = NEXT(t) ) { |
NEXTNODE(r0,r); |
NEXTNODE(r0,r); |
MKSTR(fname,((FUNC)BDY(t))->fullname); |
MKSTR(fname,((FUNC)BDY(t))->fullname); |
BDY(r) = (pointer)fname; |
BDY(r) = (pointer)fname; |
} |
} |
if ( r0 ) NEXT(r) = 0; |
if ( r0 ) NEXT(r) = 0; |
MKLIST(*rp,r0); |
MKLIST(*rp,r0); |
} |
} |
|
|
void Pclear_handler(arg,rp) |
void Pclear_handler(arg,rp) |
NODE arg; |
NODE arg; |
Q *rp; |
Q *rp; |
{ |
{ |
NODE r0,r,t; |
NODE r0,r,t; |
char *name; |
char *name; |
NODE hlist; |
NODE hlist; |
STRING fname; |
STRING fname; |
|
|
asir_assert(ARG0(arg),O_STR,"clear_handler"); |
asir_assert(ARG0(arg),O_STR,"clear_handler"); |
name = BDY((STRING)ARG0(arg)); |
name = BDY((STRING)ARG0(arg)); |
if ( !strcmp(name,"intr") ) |
if ( !strcmp(name,"intr") ) |
user_int_handler = 0; |
user_int_handler = 0; |
else if ( !strcmp(name,"quit") ) |
else if ( !strcmp(name,"quit") ) |
user_quit_handler = 0; |
user_quit_handler = 0; |
else |
else |
error("clear_handler : invalid keyword (must be \"intr\" or \"quit\")"); |
error("clear_handler : invalid keyword (must be \"intr\" or \"quit\")"); |
*rp = 0; |
*rp = 0; |
} |
} |
|
|
void Pcall(NODE arg,Obj *rp) |
void Pcall(NODE arg,Obj *rp) |
{ |
{ |
P p; |
P p; |
V v; |
V v; |
|
NODE n,n1; |
|
LIST list; |
|
VECT vect; |
|
pointer *a; |
|
int len,i; |
|
|
p = (P)ARG0(arg); |
p = (P)ARG0(arg); |
if ( !p || OID(p) != 2 ) |
if ( !p || OID(p) != 2 ) |
error("call : invalid argument"); |
error("call : invalid argument"); |
v = VR(p); |
v = VR(p); |
if ( (int)v->attr != V_SR ) |
if ( (int)v->attr != V_SR ) |
error("call : no such function"); |
error("call : no such function"); |
|
else { |
else |
list = (LIST) ARG1(arg); |
*rp = (Obj)bevalf((FUNC)v->priv,BDY((LIST)ARG1(arg))); |
if ( list ) { |
|
switch (OID(list)) { |
|
case O_VECT: |
|
vect = (VECT)list; len = vect->len; a = BDY(vect); |
|
for ( i = len - 1, n = 0; i >= 0; i-- ) { |
|
MKNODE(n1,a[i],n); n = n1; |
|
} |
|
MKLIST(list,n); |
|
/* falling next case */ |
|
case O_LIST: |
|
*rp = (Obj)bevalf_with_opts((FUNC)v->priv,BDY(list),current_option); |
|
return; |
|
default: |
|
break; |
|
} |
|
} |
|
error("call : invalid argument"); |
|
} |
} |
} |
|
|
/* at=position of arg to be used for iteration */ |
/* at=position of arg to be used for iteration */ |
|
|
void Pmapat(NODE arg,Obj *rp) |
void Pmapat(NODE arg,Obj *rp) |
{ |
{ |
LIST args; |
LIST args; |
NODE node,rest,t0,t,n,r,r0; |
NODE node,rest,t0,t,n,r,r0; |
P fpoly; |
P fpoly; |
V fvar; |
V fvar; |
FUNC f; |
FUNC f; |
VECT v,rv; |
VECT v,rv; |
MAT m,rm; |
MAT m,rm; |
LIST rl; |
LIST rl; |
int len,row,col,i,j,pos; |
int len,row,col,i,j,pos; |
Obj iter; |
Obj iter; |
pointer val; |
pointer val; |
|
NODE option; |
|
|
if ( argc(arg) < 3 ) |
option = current_option; |
error("mapat : too few arguments"); |
|
|
|
fpoly = (P)ARG0(arg); |
if ( argc(arg) < 3 ) |
if ( !fpoly || OID(fpoly) != O_P ) |
error("mapat : too few arguments"); |
error("mapat : invalid function specification"); |
|
fvar = VR(fpoly); |
fpoly = (P)ARG0(arg); |
if ( fvar->attr != (pointer)V_SR || !(f=(FUNC)fvar->priv) ) |
if ( !fpoly || OID(fpoly) != O_P ) |
error("mapat : invalid function specification"); |
error("mapat : invalid function specification"); |
if ( !INT(ARG1(arg)) ) |
fvar = VR(fpoly); |
error("mapat : invalid position"); |
if ( fvar->attr != (pointer)V_SR || !(f=(FUNC)fvar->priv) ) |
pos = QTOS((Q)ARG1(arg)); |
error("mapat : invalid function specification"); |
node = NEXT(NEXT(arg)); |
if ( !INT(ARG1(arg)) ) |
len = length(node); |
error("mapat : invalid position"); |
if ( pos >= len ) |
pos = QTOS((Q)ARG1(arg)); |
error("evalmapatf : invalid position"); |
node = NEXT(NEXT(arg)); |
r0 = 0; |
len = length(node); |
for ( i = 0, t = node; i < pos; i++, t = NEXT(t) ) { |
if ( pos >= len ) |
NEXTNODE(r0,r); |
error("evalmapatf : invalid position"); |
BDY(r) = BDY(t); |
r0 = 0; |
} |
for ( i = 0, t = node; i < pos; i++, t = NEXT(t) ) { |
NEXTNODE(r0,r); |
NEXTNODE(r0,r); |
iter = BDY(t); rest = NEXT(t); |
BDY(r) = BDY(t); |
if ( !iter ) { |
} |
*rp = bevalf(f,node); |
NEXTNODE(r0,r); |
return; |
iter = BDY(t); rest = NEXT(t); |
} |
if ( !iter ) { |
switch ( OID(iter) ) { |
*rp = bevalf_with_opts(f,node,option); |
case O_VECT: |
return; |
v = (VECT)iter; len = v->len; MKVECT(rv,len); |
} |
for ( i = 0; i < len; i++ ) { |
switch ( OID(iter) ) { |
BDY(r) = BDY(v)[i]; NEXT(r) = rest; |
case O_VECT: |
BDY(rv)[i] = bevalf(f,r0); |
v = (VECT)iter; len = v->len; MKVECT(rv,len); |
} |
for ( i = 0; i < len; i++ ) { |
*rp = (Obj)rv; |
BDY(r) = BDY(v)[i]; NEXT(r) = rest; |
break; |
BDY(rv)[i] = bevalf_with_opts(f,r0,option); |
case O_MAT: |
} |
m = (MAT)iter; row = m->row; col = m->col; MKMAT(rm,row,col); |
*rp = (Obj)rv; |
for ( i = 0; i < row; i++ ) |
break; |
for ( j = 0; j < col; j++ ) { |
case O_MAT: |
BDY(r) = BDY(m)[i][j]; NEXT(r) = rest; |
m = (MAT)iter; row = m->row; col = m->col; MKMAT(rm,row,col); |
BDY(rm)[i][j] = bevalf(f,r0); |
for ( i = 0; i < row; i++ ) |
} |
for ( j = 0; j < col; j++ ) { |
*rp = (Obj)rm; |
BDY(r) = BDY(m)[i][j]; NEXT(r) = rest; |
break; |
BDY(rm)[i][j] = bevalf_with_opts(f,r0,option); |
case O_LIST: |
} |
n = BDY((LIST)iter); |
*rp = (Obj)rm; |
for ( t0 = t = 0; n; n = NEXT(n) ) { |
break; |
BDY(r) = BDY(n); NEXT(r) = rest; |
case O_LIST: |
NEXTNODE(t0,t); BDY(t) = bevalf(f,r0); |
n = BDY((LIST)iter); |
} |
for ( t0 = t = 0; n; n = NEXT(n) ) { |
if ( t0 ) |
BDY(r) = BDY(n); NEXT(r) = rest; |
NEXT(t) = 0; |
NEXTNODE(t0,t); BDY(t) = bevalf_with_opts(f,r0,option); |
MKLIST(rl,t0); |
} |
*rp = (Obj)rl; |
if ( t0 ) |
break; |
NEXT(t) = 0; |
default: |
MKLIST(rl,t0); |
*rp = bevalf(f,node); |
*rp = (Obj)rl; |
break; |
break; |
} |
default: |
|
*rp = bevalf_with_opts(f,node,option); |
|
break; |
|
} |
} |
} |
|
|
|
/* An implementation of 'map' as builtin function. */ |
|
void Pmap(NODE arg,Obj *rp) |
|
{ |
|
LIST args; |
|
NODE node,rest,t0,t,n,r,r0; |
|
P fpoly; |
|
V fvar; |
|
FUNC f; |
|
VECT v,rv; |
|
MAT m,rm; |
|
LIST rl; |
|
int len,row,col,i,j; |
|
Obj iter; |
|
pointer val; |
|
NODE option; |
|
|
|
option = current_option; |
|
|
|
if ( argc(arg) < 2 ) |
|
error("mapat : too few arguments"); |
|
|
|
fpoly = (P)ARG0(arg); |
|
if ( !fpoly || OID(fpoly) != O_P ) |
|
error("map : invalid function specification"); |
|
fvar = VR(fpoly); |
|
if ( fvar->attr != (pointer)V_SR || !(f=(FUNC)fvar->priv) ) |
|
error("map : invalid function specification"); |
|
|
|
node = NEXT(arg); |
|
len = length(node); |
|
if ( 0 >= len ) |
|
error("evalmapf : invalid position"); |
|
r0 = 0; |
|
NEXTNODE(r0,r); |
|
iter = BDY(node); rest = NEXT(node); |
|
if ( !iter ) { |
|
*rp = bevalf_with_opts(f,node,option); |
|
return; |
|
} |
|
switch ( OID(iter) ) { |
|
case O_VECT: |
|
v = (VECT)iter; len = v->len; MKVECT(rv,len); |
|
for ( i = 0; i < len; i++ ) { |
|
BDY(r) = BDY(v)[i]; NEXT(r) = rest; |
|
BDY(rv)[i] = bevalf_with_opts(f,r0,option); |
|
} |
|
*rp = (Obj)rv; |
|
break; |
|
case O_MAT: |
|
m = (MAT)iter; row = m->row; col = m->col; MKMAT(rm,row,col); |
|
for ( i = 0; i < row; i++ ) |
|
for ( j = 0; j < col; j++ ) { |
|
BDY(r) = BDY(m)[i][j]; NEXT(r) = rest; |
|
BDY(rm)[i][j] = bevalf_with_opts(f,r0,option); |
|
} |
|
*rp = (Obj)rm; |
|
break; |
|
case O_LIST: |
|
n = BDY((LIST)iter); |
|
for ( t0 = t = 0; n; n = NEXT(n) ) { |
|
BDY(r) = BDY(n); NEXT(r) = rest; |
|
NEXTNODE(t0,t); BDY(t) = bevalf_with_opts(f,r0,option); |
|
} |
|
if ( t0 ) |
|
NEXT(t) = 0; |
|
MKLIST(rl,t0); |
|
*rp = (Obj)rl; |
|
break; |
|
default: |
|
*rp = bevalf_with_opts(f,node,option); |
|
break; |
|
} |
|
} |
|
|
void Pdeval(arg,rp) |
void Pdeval(arg,rp) |
NODE arg; |
NODE arg; |
Obj *rp; |
Obj *rp; |
{ |
{ |
asir_assert(ARG0(arg),O_R,"deval"); |
asir_assert(ARG0(arg),O_R,"deval"); |
devalr(CO,(Obj)ARG0(arg),rp); |
devalr(CO,(Obj)ARG0(arg),rp); |
} |
} |
|
|
void Peval_quote(arg,rp) |
void Peval_quote(arg,rp) |
NODE arg; |
NODE arg; |
Obj *rp; |
Obj *rp; |
{ |
{ |
FNODE a; |
FNODE a; |
QUOTE q; |
QUOTE q; |
|
Obj f; |
|
|
asir_assert(ARG0(arg),O_QUOTE,"eval_quote"); |
f = (Obj)ARG0(arg); |
if ( argc(arg) == 2 && ARG1(arg) ) { |
if ( !f || OID(f) != O_QUOTE ) { |
a = partial_eval((FNODE)BDY((QUOTE)ARG0(arg))); |
*rp = f; |
MKQUOTE(q,a); |
return; |
*rp = (Obj)q; |
} |
} else |
if ( argc(arg) == 2 && ARG1(arg) ) { |
*rp = eval((FNODE)BDY((QUOTE)ARG0(arg))); |
a = partial_eval((FNODE)BDY((QUOTE)ARG0(arg))); |
|
MKQUOTE(q,a); |
|
*rp = (Obj)q; |
|
} else |
|
*rp = eval((FNODE)BDY((QUOTE)ARG0(arg))); |
} |
} |