From dba9fc9dc7a1d1f02b26789a2017ce4dd20bb128 Mon Sep 17 00:00:00 2001 From: "(no author)" <(no author)@b2dd03c8-39d4-4d8f-98ff-823fe69b080e> Date: Thu, 25 Dec 2003 08:48:14 +0000 Subject: This commit was manufactured by cvs2svn to create branch 'ruby_1_8'. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/branches/ruby_1_8@5291 b2dd03c8-39d4-4d8f-98ff-823fe69b080e --- ext/bigdecimal/bigdecimal.c | 4075 ------------------------------------------- 1 file changed, 4075 deletions(-) delete mode 100644 ext/bigdecimal/bigdecimal.c (limited to 'ext/bigdecimal/bigdecimal.c') diff --git a/ext/bigdecimal/bigdecimal.c b/ext/bigdecimal/bigdecimal.c deleted file mode 100644 index 6a9940d335..0000000000 --- a/ext/bigdecimal/bigdecimal.c +++ /dev/null @@ -1,4075 +0,0 @@ -/* - * - * Ruby BigDecimal(Variable decimal precision) extension library. - * - * Copyright(C) 2002 by Shigeo Kobayashi(shigeo@tinyforest.gr.jp) - * - * You may distribute under the terms of either the GNU General Public - * License or the Artistic License, as specified in the README file - * of this BigDecimal distribution. - * - * NOTE: Change log in this source removed to reduce source code size. - * See rev. 1.25 if needed. - * - */ - -#include -#include -#include -#include -#include -#include -#include -#include "ruby.h" -#include "math.h" -#include "version.h" - -/* #define ENABLE_NUMERIC_STRING */ - -VALUE rb_cBigDecimal; - -#include "bigdecimal.h" - -/* MACRO's to guard objects from GC by keeping them in stack */ -#define ENTER(n) volatile VALUE vStack[n];int iStack=0 -#define PUSH(x) vStack[iStack++] = (unsigned long)(x); -#define SAVE(p) PUSH(p->obj); -#define GUARD_OBJ(p,y) {p=y;SAVE(p);} - -/* - * ================== Ruby Interface part ========================== - */ -#define DoSomeOne(x,y) rb_num_coerce_bin(x,y) - -/* - * **** BigDecimal version **** - */ -static VALUE -BigDecimal_version(VALUE self) -{ - /* - * 1.0.0: Ruby 1.8.0 - * 1.0.1: Ruby 1.8.1 - */ - return rb_str_new2("1.0.1"); -} - -/* - * VP routines used in BigDecimal part - */ -static unsigned short VpGetException(void); -static void VpSetException(unsigned short f); -static void VpInternalRound(Real *c,int ixDigit,U_LONG vPrev,U_LONG v); -static int VpLimitRound(Real *c,U_LONG ixDigit); - -/* - * **** BigDecimal part **** - */ - -static void -BigDecimal_delete(Real *pv) -{ - VpFree(pv); -} - -static VALUE -ToValue(Real *p) -{ - if(VpIsNaN(p)) { - VpException(VP_EXCEPTION_NaN,"Computation results to 'NaN'(Not a Number)",0); - } else if(VpIsPosInf(p)) { - VpException(VP_EXCEPTION_INFINITY,"Computation results to 'Infinity'",0); - } else if(VpIsNegInf(p)) { - VpException(VP_EXCEPTION_INFINITY,"Computation results to '-Infinity'",0); - } - return p->obj; -} - -static Real * -GetVpValue(VALUE v, int must) -{ - Real *pv; - VALUE bg; - char szD[128]; - - switch(TYPE(v)) - { - case T_DATA: - if(RDATA(v)->dfree ==(void *) BigDecimal_delete) { - Data_Get_Struct(v, Real, pv); - return pv; - } else { - goto SomeOneMayDoIt; - } - break; - case T_FIXNUM: - sprintf(szD, "%ld", FIX2LONG(v)); - return VpCreateRbObject(VpBaseFig() * 2 + 1, szD); - -#ifdef ENABLE_NUMERIC_STRING - case T_STRING: - SafeStringValue(v); - return VpCreateRbObject(strlen(RSTRING(v)->ptr) + VpBaseFig() + 1, - RSTRING(v)->ptr); -#endif /* ENABLE_NUMERIC_STRING */ - - case T_BIGNUM: - bg = rb_big2str(v, 10); - return VpCreateRbObject(strlen(RSTRING(bg)->ptr) + VpBaseFig() + 1, - RSTRING(bg)->ptr); - default: - goto SomeOneMayDoIt; - } - -SomeOneMayDoIt: - if(must) { - rb_raise(rb_eTypeError, "%s can't be coerced into BigDecimal", - rb_special_const_p(v)? - RSTRING(rb_inspect(v))->ptr: - rb_obj_classname(v) - ); - } - return NULL; /* NULL means to coerce */ -} - -static VALUE -BigDecimal_double_fig(VALUE self) -{ - return INT2FIX(VpDblFig()); -} - -static VALUE -BigDecimal_prec(VALUE self) -{ - ENTER(1); - Real *p; - VALUE obj; - - GUARD_OBJ(p,GetVpValue(self,1)); - obj = rb_assoc_new(INT2NUM(p->Prec*VpBaseFig()), - INT2NUM(p->MaxPrec*VpBaseFig())); - return obj; -} - -static VALUE -BigDecimal_hash(VALUE self) -{ - ENTER(1); - Real *p; - U_LONG hash,i; - - GUARD_OBJ(p,GetVpValue(self,1)); - hash = (U_LONG)p->sign; - /* hash!=2: the case for 0(1),NaN(0) or +-Infinity(3) is sign itself */ - if(hash==2) { - for(i = 0; i < p->Prec;i++) { - hash = 31 * hash + p->frac[i]; - hash ^= p->frac[i]; - } - hash += p->exponent; - } - return INT2FIX(hash); -} - -static VALUE -BigDecimal_dump(int argc, VALUE *argv, VALUE self) -{ - ENTER(5); - char sz[50]; - Real *vp; - char *psz; - VALUE dummy; - rb_scan_args(argc, argv, "01", &dummy); - GUARD_OBJ(vp,GetVpValue(self,1)); - sprintf(sz,"%lu:",VpMaxPrec(vp)*VpBaseFig()); - psz = ALLOCA_N(char,(unsigned int)VpNumOfChars(vp,"E")+strlen(sz)); - sprintf(psz,"%s",sz); - VpToString(vp, psz+strlen(psz), 0, 0); - return rb_str_new2(psz); -} - -static VALUE -BigDecimal_load(VALUE self, VALUE str) -{ - ENTER(2); - Real *pv; - unsigned char *pch; - unsigned char ch; - unsigned long m=0; - - SafeStringValue(str); - pch = RSTRING(str)->ptr; - /* First get max prec */ - while((*pch)!=(unsigned char)'\0' && (ch=*pch++)!=(unsigned char)':') { - if(!ISDIGIT(ch)) { - rb_raise(rb_eTypeError, "Load failed: invalid character in the marshaled string"); - } - m = m*10 + (unsigned long)(ch-'0'); - } - if(m>VpBaseFig()) m -= VpBaseFig(); - GUARD_OBJ(pv,VpNewRbClass(m,pch,self)); - m /= VpBaseFig(); - if(m && pv->MaxPrec>m) pv->MaxPrec = m+1; - return ToValue(pv); -} - -static VALUE -BigDecimal_mode(int argc, VALUE *argv, VALUE self) -{ - VALUE which; - VALUE val; - unsigned long f,fo; - - if(rb_scan_args(argc,argv,"11",&which,&val)==1) val = Qnil; - - Check_Type(which, T_FIXNUM); - f = (unsigned long)FIX2INT(which); - - if(f&VP_EXCEPTION_ALL) { - /* Exception mode setting */ - fo = VpGetException(); - if(val==Qnil) return INT2FIX(fo); - if(val!=Qfalse && val!=Qtrue) { - rb_raise(rb_eTypeError, "The second argument must be true or false."); - return Qnil; /* Not reached */ - } - if(f&VP_EXCEPTION_INFINITY) { - VpSetException((unsigned short)((val==Qtrue)?(fo|VP_EXCEPTION_INFINITY): - (fo&(~VP_EXCEPTION_INFINITY)))); - } - if(f&VP_EXCEPTION_NaN) { - VpSetException((unsigned short)((val==Qtrue)?(fo|VP_EXCEPTION_NaN): - (fo&(~VP_EXCEPTION_NaN)))); - } - fo = VpGetException(); - return INT2FIX(fo); - } - if(VP_ROUND_MODE==f) { - /* Rounding mode setting */ - fo = VpGetRoundMode(); - if(val==Qnil) return INT2FIX(fo); - Check_Type(val, T_FIXNUM); - if(!VpIsRoundMode(FIX2INT(val))) { - rb_raise(rb_eTypeError, "Invalid rounding mode."); - return Qnil; - } - fo = VpSetRoundMode((unsigned long)FIX2INT(val)); - return INT2FIX(fo); - } - rb_raise(rb_eTypeError, "The first argument for BigDecimal#mode is invalid."); - return Qnil; -} - -static U_LONG -GetAddSubPrec(Real *a, Real *b) -{ - U_LONG mxs; - U_LONG mx = a->Prec; - S_INT d; - - if(!VpIsDef(a) || !VpIsDef(b)) return (-1L); - if(mx < b->Prec) mx = b->Prec; - if(a->exponent!=b->exponent) { - mxs = mx; - d = a->exponent - b->exponent; - if(d<0) d = -d; - mx = mx+(U_LONG)d; - if(mxobj = (VALUE)Data_Wrap_Struct(klass, 0, BigDecimal_delete, pv); - return pv; -} - -VP_EXPORT Real * -VpCreateRbObject(U_LONG mx, char *str) -{ - Real *pv = VpAlloc(mx,str); - pv->obj = (VALUE)Data_Wrap_Struct(rb_cBigDecimal, 0, BigDecimal_delete, pv); - return pv; -} - - -static VALUE -BigDecimal_IsNaN(VALUE self) -{ - Real *p = GetVpValue(self,1); - if(VpIsNaN(p)) return Qtrue; - return Qfalse; -} - -static VALUE -BigDecimal_IsInfinite(VALUE self) -{ - Real *p = GetVpValue(self,1); - if(VpIsPosInf(p)) return INT2FIX(1); - if(VpIsNegInf(p)) return INT2FIX(-1); - return Qnil; -} - -static VALUE -BigDecimal_IsFinite(VALUE self) -{ - Real *p = GetVpValue(self,1); - if(VpIsNaN(p)) return Qfalse; - if(VpIsInf(p)) return Qfalse; - return Qtrue; -} - -static VALUE -BigDecimal_to_i(VALUE self) -{ - ENTER(5); - int e,n,i,nf; - U_LONG v,b,j; - char *psz,*pch; - Real *p; - - GUARD_OBJ(p,GetVpValue(self,1)); - - /* Infinity or NaN not converted. */ - if(VpIsNaN(p)) { - VpException(VP_EXCEPTION_NaN,"Computation results to 'NaN'(Not a Number)",0); - return Qnil; - } else if(VpIsPosInf(p)) { - VpException(VP_EXCEPTION_INFINITY,"Computation results to 'Infinity'",0); - return Qnil; - } else if(VpIsNegInf(p)) { - VpException(VP_EXCEPTION_INFINITY,"Computation results to '-Infinity'",0); - return Qnil; - } - - e = VpExponent10(p); - if(e<=0) return INT2FIX(0); - nf = VpBaseFig(); - if(e<=nf) { - e = VpGetSign(p)*p->frac[0]; - return INT2FIX(e); - } - psz = ALLOCA_N(char,(unsigned int)(e+nf+2)); - - n = (e+nf-1)/nf; - pch = psz; - if(VpGetSign(p)<0) *pch++ = '-'; - for(i=0;i=(int)p->Prec) { - while(b) { - *pch++ = '0'; - b /= 10; - } - continue; - } - v = p->frac[i]; - while(b) { - j = v/b; - *pch++ = (char)(j + '0'); - v -= j*b; - b /= 10; - } - } - *pch++ = 0; - return rb_cstr2inum(psz,10); -} - -static VALUE -BigDecimal_induced_from(VALUE self, VALUE x) -{ - Real *p = GetVpValue(x,1); - return p->obj; -} - -static VALUE -BigDecimal_to_f(VALUE self) -{ - ENTER(1); - Real *p; - double d, d2; - S_LONG e; - - GUARD_OBJ(p,GetVpValue(self,1)); - if(VpVtoD(&d, &e, p)!=1) return rb_float_new(d); - errno = 0; - d2 = pow(10.0,(double)e); - if((errno == ERANGE && e>0) || (d2>1.0 && (fabs(d) > (DBL_MAX / d2)))) { - VpException(VP_EXCEPTION_OVERFLOW,"BigDecimal to Float conversion.",0); - if(d>0.0) return rb_float_new(DBL_MAX); - else return rb_float_new(-DBL_MAX); - } - return rb_float_new(d*d2); -} - -static VALUE -BigDecimal_coerce(VALUE self, VALUE other) -{ - ENTER(2); - VALUE obj; - Real *b; - if(TYPE(other) == T_FLOAT) { - obj = rb_assoc_new(other, BigDecimal_to_f(self)); - } else { - GUARD_OBJ(b,GetVpValue(other,1)); - obj = rb_assoc_new(b->obj, self); - } - return obj; -} - -static VALUE -BigDecimal_uplus(VALUE self) -{ - return self; -} - -static VALUE -BigDecimal_add(VALUE self, VALUE r) -{ - ENTER(5); - Real *c, *a, *b; - U_LONG mx; - GUARD_OBJ(a,GetVpValue(self,1)); - b = GetVpValue(r,0); - if(!b) return DoSomeOne(self,r); - SAVE(b); - if(VpIsNaN(b)) return b->obj; - if(VpIsNaN(a)) return a->obj; - mx = GetAddSubPrec(a,b); - if(mx==(-1L)) { - GUARD_OBJ(c,VpCreateRbObject(VpBaseFig() + 1, "0")); - VpAddSub(c, a, b, 1); - } else { - GUARD_OBJ(c,VpCreateRbObject(mx *(VpBaseFig() + 1), "0")); - if(!mx) { - VpSetInf(c,VpGetSign(a)); - } else { - VpAddSub(c, a, b, 1); - } - } - return ToValue(c); -} - -static VALUE -BigDecimal_sub(VALUE self, VALUE r) -{ - ENTER(5); - Real *c, *a, *b; - U_LONG mx; - - GUARD_OBJ(a,GetVpValue(self,1)); - b = GetVpValue(r,0); - if(!b) return DoSomeOne(self,r); - SAVE(b); - - if(VpIsNaN(b)) return b->obj; - if(VpIsNaN(a)) return a->obj; - - mx = GetAddSubPrec(a,b); - if(mx==(-1L)) { - GUARD_OBJ(c,VpCreateRbObject(VpBaseFig() + 1, "0")); - VpAddSub(c, a, b, -1); - } else { - GUARD_OBJ(c,VpCreateRbObject(mx *(VpBaseFig() + 1), "0")); - if(!mx) { - VpSetInf(c,VpGetSign(a)); - } else { - VpAddSub(c, a, b, -1); - } - } - return ToValue(c); -} - -static VALUE -BigDecimalCmp(VALUE self, VALUE r,char op) -{ - ENTER(5); - S_INT e; - Real *a, *b; - GUARD_OBJ(a,GetVpValue(self,1)); - b = GetVpValue(r,0); - if(!b) return rb_num_coerce_cmp(self,r); - SAVE(b); - e = VpComp(a, b); - if(e==999) return Qnil; - switch(op) - { - case '*': return INT2FIX(e); /* any op */ - case '=': if(e==0) return Qtrue ; return Qfalse; - case '!': if(e!=0) return Qtrue ; return Qfalse; - case 'G': if(e>=0) return Qtrue ; return Qfalse; - case '>': if(e> 0) return Qtrue ; return Qfalse; - case 'L': if(e<=0) return Qtrue ; return Qfalse; - case '<': if(e< 0) return Qtrue ; return Qfalse; - } - rb_bug("Undefined operation in BigDecimalCmp()"); -} - -static VALUE -BigDecimal_zero(VALUE self) -{ - Real *a = GetVpValue(self,1); - return VpIsZero(a) ? Qtrue : Qfalse; -} - -static VALUE -BigDecimal_nonzero(VALUE self) -{ - Real *a = GetVpValue(self,1); - return VpIsZero(a) ? Qnil : self; -} - -static VALUE -BigDecimal_comp(VALUE self, VALUE r) -{ - return BigDecimalCmp(self, r, '*'); -} - -static VALUE -BigDecimal_eq(VALUE self, VALUE r) -{ - return BigDecimalCmp(self, r, '='); -} - -static VALUE -BigDecimal_ne(VALUE self, VALUE r) -{ - return BigDecimalCmp(self, r, '!'); -} - -static VALUE -BigDecimal_lt(VALUE self, VALUE r) -{ - return BigDecimalCmp(self, r, '<'); -} - -static VALUE -BigDecimal_le(VALUE self, VALUE r) -{ - return BigDecimalCmp(self, r, 'L'); -} - -static VALUE -BigDecimal_gt(VALUE self, VALUE r) -{ - return BigDecimalCmp(self, r, '>'); -} - -static VALUE -BigDecimal_ge(VALUE self, VALUE r) -{ - return BigDecimalCmp(self, r, 'G'); -} - -static VALUE -BigDecimal_neg(VALUE self, VALUE r) -{ - ENTER(5); - Real *c, *a; - GUARD_OBJ(a,GetVpValue(self,1)); - GUARD_OBJ(c,VpCreateRbObject(a->Prec *(VpBaseFig() + 1), "0")); - VpAsgn(c, a, -1); - return ToValue(c); -} - -static VALUE -BigDecimal_mult(VALUE self, VALUE r) -{ - ENTER(5); - Real *c, *a, *b; - U_LONG mx; - - GUARD_OBJ(a,GetVpValue(self,1)); - b = GetVpValue(r,0); - if(!b) return DoSomeOne(self,r); - SAVE(b); - - mx = a->Prec + b->Prec; - GUARD_OBJ(c,VpCreateRbObject(mx *(VpBaseFig() + 1), "0")); - VpMult(c, a, b); - return ToValue(c); -} - -static VALUE -BigDecimal_divide(Real **c, Real **res, Real **div, VALUE self, VALUE r) -/* For c = self.div(r): with round operation */ -{ - ENTER(5); - Real *a, *b; - U_LONG mx; - - GUARD_OBJ(a,GetVpValue(self,1)); - b = GetVpValue(r,0); - if(!b) return DoSomeOne(self,r); - SAVE(b); - *div = b; - mx =(a->MaxPrec + b->MaxPrec + 1) * VpBaseFig(); - GUARD_OBJ((*c),VpCreateRbObject(mx, "#0")); - GUARD_OBJ((*res),VpCreateRbObject((mx+1) * 2 +(VpBaseFig() + 1), "#0")); - VpDivd(*c, *res, a, b); - return (VALUE)0; -} - -static VALUE -BigDecimal_div(VALUE self, VALUE r) -/* For c = self/r: with round operation */ -{ - ENTER(5); - Real *c=NULL, *res=NULL, *div = NULL; - r = BigDecimal_divide(&c, &res, &div, self, r); - if(r!=(VALUE)0) return r; /* coerced by other */ - SAVE(c);SAVE(res);SAVE(div); - /* a/b = c + r/b */ - /* c xxxxx - r 00000yyyyy ==> (y/b)*BASE >= HALF_BASE - */ - /* Round */ - if(VpHasVal(div)) { /* frac[0] must be zero for NaN,INF,Zero */ - VpInternalRound(c,0,c->frac[c->Prec-1],(VpBaseVal()*res->frac[0])/div->frac[0]); - } - return ToValue(c); -} - -/* - * %: mod = a%b = a - (a.to_f/b).floor * b - * div = (a.to_f/b).floor - */ -static VALUE -BigDecimal_DoDivmod(VALUE self, VALUE r, Real **div, Real **mod) -{ - ENTER(8); - Real *c=NULL, *d=NULL, *res=NULL; - Real *a, *b; - U_LONG mx; - - GUARD_OBJ(a,GetVpValue(self,1)); - b = GetVpValue(r,0); - if(!b) return DoSomeOne(self,r); - SAVE(b); - - if(VpIsNaN(a) || VpIsNaN(b)) goto NaN; - if(VpIsInf(a) || VpIsInf(b)) goto NaN; - if(VpIsZero(b)) goto NaN; - if(VpIsZero(a)) { - GUARD_OBJ(c,VpCreateRbObject(1, "0")); - GUARD_OBJ(d,VpCreateRbObject(1, "0")); - *div = d; - *mod = c; - return (VALUE)0; - } - - mx = a->Prec; - if(mxPrec) mx = b->Prec; - mx =(mx + 1) * VpBaseFig(); - GUARD_OBJ(c,VpCreateRbObject(mx, "0")); - GUARD_OBJ(res,VpCreateRbObject((mx+1) * 2 +(VpBaseFig() + 1), "#0")); - VpDivd(c, res, a, b); - mx = c->Prec *(VpBaseFig() + 1); - GUARD_OBJ(d,VpCreateRbObject(mx, "0")); - VpActiveRound(d,c,VP_ROUND_DOWN,0); - VpMult(res,d,b); - VpAddSub(c,a,res,-1); - if(!VpIsZero(c) && (VpGetSign(a)*VpGetSign(b)<0)) { - VpAddSub(res,d,VpOne(),-1); - VpAddSub(d ,c,b, 1); - *div = res; - *mod = d; - } else { - *div = d; - *mod = c; - } - return (VALUE)0; - -NaN: - GUARD_OBJ(c,VpCreateRbObject(1, "NaN")); - GUARD_OBJ(d,VpCreateRbObject(1, "NaN")); - *div = d; - *mod = c; - return (VALUE)0; -} - -static VALUE -BigDecimal_mod(VALUE self, VALUE r) /* %: a%b = a - (a.to_f/b).floor * b */ -{ - ENTER(3); - VALUE obj; - Real *div=NULL, *mod=NULL; - - obj = BigDecimal_DoDivmod(self,r,&div,&mod); - if(obj!=(VALUE)0) return obj; - SAVE(div);SAVE(mod); - return ToValue(mod); -} - -static VALUE -BigDecimal_divremain(VALUE self, VALUE r, Real **dv, Real **rv) -{ - ENTER(10); - U_LONG mx; - Real *a=NULL, *b=NULL, *c=NULL, *res=NULL, *d=NULL, *rr=NULL, *ff=NULL; - Real *f=NULL; - - GUARD_OBJ(a,GetVpValue(self,1)); - b = GetVpValue(r,0); - if(!b) return DoSomeOne(self,r); - SAVE(b); - - mx =(a->MaxPrec + b->MaxPrec) *VpBaseFig(); - GUARD_OBJ(c ,VpCreateRbObject(mx, "0")); - GUARD_OBJ(res,VpCreateRbObject((mx+1) * 2 +(VpBaseFig() + 1), "#0")); - GUARD_OBJ(rr ,VpCreateRbObject((mx+1) * 2 +(VpBaseFig() + 1), "#0")); - GUARD_OBJ(ff ,VpCreateRbObject((mx+1) * 2 +(VpBaseFig() + 1), "#0")); - - VpDivd(c, res, a, b); - - mx = c->Prec *(VpBaseFig() + 1); - - GUARD_OBJ(d,VpCreateRbObject(mx, "0")); - GUARD_OBJ(f,VpCreateRbObject(mx, "0")); - - VpActiveRound(d,c,VP_ROUND_DOWN,0); /* 0: round off */ - - VpFrac(f, c); - VpMult(rr,f,b); - VpAddSub(ff,res,rr,1); - - *dv = d; - *rv = ff; - return (VALUE)0; -} - -static VALUE -BigDecimal_remainder(VALUE self, VALUE r) /* remainder */ -{ - VALUE f; - Real *d,*rv; - f = BigDecimal_divremain(self,r,&d,&rv); - if(f!=(VALUE)0) return f; - return ToValue(rv); -} - -static VALUE -BigDecimal_divmod(VALUE self, VALUE r) -{ - ENTER(5); - VALUE obj; - Real *div=NULL, *mod=NULL; - - obj = BigDecimal_DoDivmod(self,r,&div,&mod); - if(obj!=(VALUE)0) return obj; - SAVE(div);SAVE(mod); - obj = rb_assoc_new(ToValue(div), ToValue(mod)); - return obj; -} - -static VALUE -BigDecimal_div2(int argc, VALUE *argv, VALUE self) -{ - ENTER(5); - VALUE b,n; - int na = rb_scan_args(argc,argv,"11",&b,&n); - if(na==1) { /* div in Float sense */ - VALUE obj; - Real *div=NULL; - Real *mod; - obj = BigDecimal_DoDivmod(self,b,&div,&mod); - if(obj!=(VALUE)0) return obj; - return ToValue(div); - } else { /* div in BigDecimal sense */ - U_LONG ix = (U_LONG)GetPositiveInt(n); - if(ix==0) return BigDecimal_div(self,b); - else { - Real *res=NULL; - Real *av=NULL, *bv=NULL, *cv=NULL; - U_LONG mx = (ix+VpBaseFig()*2); - U_LONG pl = VpSetPrecLimit(0); - - GUARD_OBJ(cv,VpCreateRbObject(mx,"0")); - GUARD_OBJ(av,GetVpValue(self,1)); - GUARD_OBJ(bv,GetVpValue(b,1)); - mx = av->Prec + bv->Prec + 2; - if(mx <= cv->MaxPrec) mx = cv->MaxPrec+1; - GUARD_OBJ(res,VpCreateRbObject((mx * 2 + 2)*VpBaseFig(), "#0")); - VpDivd(cv,res,av,bv); - VpSetPrecLimit(pl); - VpLeftRound(cv,VpGetRoundMode(),ix); - return ToValue(cv); - } - } -} - -static VALUE -BigDecimal_add2(VALUE self, VALUE b, VALUE n) -{ - ENTER(2); - Real *cv; - U_LONG mx = (U_LONG)GetPositiveInt(n); - if(mx==0) return BigDecimal_add(self,b); - else { - U_LONG pl = VpSetPrecLimit(0); - VALUE c = BigDecimal_add(self,b); - VpSetPrecLimit(pl); - GUARD_OBJ(cv,GetVpValue(c,1)); - VpLeftRound(cv,VpGetRoundMode(),mx); - return ToValue(cv); - } -} - -static VALUE -BigDecimal_sub2(VALUE self, VALUE b, VALUE n) -{ - ENTER(2); - Real *cv; - U_LONG mx = (U_LONG)GetPositiveInt(n); - if(mx==0) return BigDecimal_sub(self,b); - else { - U_LONG pl = VpSetPrecLimit(0); - VALUE c = BigDecimal_sub(self,b); - VpSetPrecLimit(pl); - GUARD_OBJ(cv,GetVpValue(c,1)); - VpLeftRound(cv,VpGetRoundMode(),mx); - return ToValue(cv); - } -} - -static VALUE -BigDecimal_mult2(VALUE self, VALUE b, VALUE n) -{ - ENTER(2); - Real *cv; - U_LONG mx = (U_LONG)GetPositiveInt(n); - if(mx==0) return BigDecimal_mult(self,b); - else { - U_LONG pl = VpSetPrecLimit(0); - VALUE c = BigDecimal_mult(self,b); - VpSetPrecLimit(pl); - GUARD_OBJ(cv,GetVpValue(c,1)); - VpLeftRound(cv,VpGetRoundMode(),mx); - return ToValue(cv); - } -} - -static VALUE -BigDecimal_abs(VALUE self) -{ - ENTER(5); - Real *c, *a; - U_LONG mx; - - GUARD_OBJ(a,GetVpValue(self,1)); - mx = a->Prec *(VpBaseFig() + 1); - GUARD_OBJ(c,VpCreateRbObject(mx, "0")); - VpAsgn(c, a, 1); - VpChangeSign(c,(S_INT)1); - return ToValue(c); -} - -static VALUE -BigDecimal_sqrt(VALUE self, VALUE nFig) -{ - ENTER(5); - Real *c, *a; - S_INT mx, n; - - GUARD_OBJ(a,GetVpValue(self,1)); - mx = a->Prec *(VpBaseFig() + 1); - - n = GetPositiveInt(nFig) + VpDblFig() + 1; - if(mx <= n) mx = n; - GUARD_OBJ(c,VpCreateRbObject(mx, "0")); - VpSqrt(c, a); - return ToValue(c); -} - -static VALUE -BigDecimal_fix(VALUE self) -{ - ENTER(5); - Real *c, *a; - U_LONG mx; - - GUARD_OBJ(a,GetVpValue(self,1)); - mx = a->Prec *(VpBaseFig() + 1); - GUARD_OBJ(c,VpCreateRbObject(mx, "0")); - VpActiveRound(c,a,VP_ROUND_DOWN,0); /* 0: round off */ - return ToValue(c); -} - -static VALUE -BigDecimal_round(int argc, VALUE *argv, VALUE self) -{ - ENTER(5); - Real *c, *a; - int iLoc; - U_LONG mx; - VALUE vLoc; - VALUE vRound; - U_LONG pl; - - int sw = VpGetRoundMode(); - - int na = rb_scan_args(argc,argv,"02",&vLoc,&vRound); - switch(na) { - case 0: - iLoc = 0; - break; - case 1: - Check_Type(vLoc, T_FIXNUM); - iLoc = FIX2INT(vLoc); - break; - case 2: - Check_Type(vLoc, T_FIXNUM); - iLoc = FIX2INT(vLoc); - Check_Type(vRound, T_FIXNUM); - sw = FIX2INT(vRound); - if(!VpIsRoundMode(sw)) { - rb_raise(rb_eTypeError, "Invalid rounding mode."); - return Qnil; - } - break; - } - - pl = VpSetPrecLimit(0); - GUARD_OBJ(a,GetVpValue(self,1)); - mx = a->Prec *(VpBaseFig() + 1); - GUARD_OBJ(c,VpCreateRbObject(mx, "0")); - VpSetPrecLimit(pl); - VpActiveRound(c,a,sw,iLoc); - return ToValue(c); -} - -static VALUE -BigDecimal_truncate(int argc, VALUE *argv, VALUE self) -{ - ENTER(5); - Real *c, *a; - int iLoc; - U_LONG mx; - VALUE vLoc; - U_LONG pl = VpSetPrecLimit(0); - - if(rb_scan_args(argc,argv,"01",&vLoc)==0) { - iLoc = 0; - } else { - Check_Type(vLoc, T_FIXNUM); - iLoc = FIX2INT(vLoc); - } - - GUARD_OBJ(a,GetVpValue(self,1)); - mx = a->Prec *(VpBaseFig() + 1); - GUARD_OBJ(c,VpCreateRbObject(mx, "0")); - VpSetPrecLimit(pl); - VpActiveRound(c,a,VP_ROUND_DOWN,iLoc); /* 0: truncate */ - return ToValue(c); -} - -static VALUE -BigDecimal_frac(VALUE self) -{ - ENTER(5); - Real *c, *a; - U_LONG mx; - - GUARD_OBJ(a,GetVpValue(self,1)); - mx = a->Prec *(VpBaseFig() + 1); - GUARD_OBJ(c,VpCreateRbObject(mx, "0")); - VpFrac(c, a); - return ToValue(c); -} - -static VALUE -BigDecimal_floor(int argc, VALUE *argv, VALUE self) -{ - ENTER(5); - Real *c, *a; - U_LONG mx; - int iLoc; - VALUE vLoc; - U_LONG pl = VpSetPrecLimit(0); - - if(rb_scan_args(argc,argv,"01",&vLoc)==0) { - iLoc = 0; - } else { - Check_Type(vLoc, T_FIXNUM); - iLoc = FIX2INT(vLoc); - } - - GUARD_OBJ(a,GetVpValue(self,1)); - mx = a->Prec *(VpBaseFig() + 1); - GUARD_OBJ(c,VpCreateRbObject(mx, "0")); - VpSetPrecLimit(pl); - VpActiveRound(c,a,VP_ROUND_FLOOR,iLoc); - return ToValue(c); -} - -static VALUE -BigDecimal_ceil(int argc, VALUE *argv, VALUE self) -{ - ENTER(5); - Real *c, *a; - U_LONG mx; - int iLoc; - VALUE vLoc; - U_LONG pl = VpSetPrecLimit(0); - - if(rb_scan_args(argc,argv,"01",&vLoc)==0) { - iLoc = 0; - } else { - Check_Type(vLoc, T_FIXNUM); - iLoc = FIX2INT(vLoc); - } - - GUARD_OBJ(a,GetVpValue(self,1)); - mx = a->Prec *(VpBaseFig() + 1); - GUARD_OBJ(c,VpCreateRbObject(mx, "0")); - VpSetPrecLimit(pl); - VpActiveRound(c,a,VP_ROUND_CEIL,iLoc); - return ToValue(c); -} - -static VALUE -BigDecimal_to_s(int argc, VALUE *argv, VALUE self) -{ - ENTER(5); - int fmt=0; /* 0:E format */ - int fPlus=0; /* =0:default,=1: set ' ' before digits ,set '+' before digits. */ - Real *vp; - char *psz; - char ch; - U_LONG nc; - S_INT mc = 0; - VALUE f; - - GUARD_OBJ(vp,GetVpValue(self,1)); - - if(rb_scan_args(argc,argv,"01",&f)==1) { - if(TYPE(f)==T_STRING) { - SafeStringValue(f); - psz = RSTRING(f)->ptr; - if(*psz==' ') { - fPlus = 1; psz++; - } else if(*psz=='+') { - fPlus = 2; psz++; - } - while(ch=*psz++) { - if(ISSPACE(ch)) continue; - if(!ISDIGIT(ch)) { - if(ch=='F' || ch=='f') fmt = 1; /* F format */ - break; - } - mc = mc * 10 + ch - '0'; - } - } else { - mc = GetPositiveInt(f); - } - } - if(fmt) { - nc = VpNumOfChars(vp,"F"); - } else { - nc = VpNumOfChars(vp,"E"); - } - if(mc>0) nc += (nc + mc - 1) / mc + 1; - - psz = ALLOCA_N(char,(unsigned int)nc); - - if(fmt) { - VpToFString(vp, psz, mc, fPlus); - } else { - VpToString (vp, psz, mc, fPlus); - } - return rb_str_new2(psz); -} - -static VALUE -BigDecimal_split(VALUE self) -{ - ENTER(5); - Real *vp; - VALUE obj,obj1; - S_LONG e; - S_LONG s; - char *psz1; - - GUARD_OBJ(vp,GetVpValue(self,1)); - psz1 = ALLOCA_N(char,(unsigned int)VpNumOfChars(vp,"E")); - VpSzMantissa(vp,psz1); - s = 1; - if(psz1[0]=='-') { - s = -1; ++psz1; - } - if(psz1[0]=='N') s=0; /* NaN */ - e = VpExponent10(vp); - obj1 = rb_str_new2(psz1); - obj = rb_ary_new2(4); - rb_ary_push(obj, INT2FIX(s)); - rb_ary_push(obj, obj1); - rb_ary_push(obj, INT2FIX(10)); - rb_ary_push(obj, INT2NUM(e)); - return obj; -} - -static VALUE -BigDecimal_exponent(VALUE self) -{ - S_LONG e = VpExponent10(GetVpValue(self,1)); - return INT2NUM(e); -} - -static VALUE -BigDecimal_inspect(VALUE self) -{ - ENTER(5); - Real *vp; - VALUE obj; - unsigned int nc; - char *psz1; - char *pszAll; - - GUARD_OBJ(vp,GetVpValue(self,1)); - nc = VpNumOfChars(vp,"E"); - nc +=(nc + 9) / 10; - - psz1 = ALLOCA_N(char,nc); - pszAll = ALLOCA_N(char,nc+256); - VpToString(vp, psz1, 10, 0); - sprintf(pszAll,"#",self,psz1,VpPrec(vp)*VpBaseFig(),VpMaxPrec(vp)*VpBaseFig()); - obj = rb_str_new2(pszAll); - return obj; -} - -static VALUE -BigDecimal_power(VALUE self, VALUE p) -{ - ENTER(5); - Real *x, *y; - S_LONG mp, ma, n; - - Check_Type(p, T_FIXNUM); - n = FIX2INT(p); - ma = n; - if(ma < 0) ma = -ma; - if(ma == 0) ma = 1; - - GUARD_OBJ(x,GetVpValue(self,1)); - if(VpIsDef(x)) { - mp = x->Prec *(VpBaseFig() + 1); - GUARD_OBJ(y,VpCreateRbObject(mp *(ma + 1), "0")); - } else { - GUARD_OBJ(y,VpCreateRbObject(1, "0")); - } - VpPower(y, x, n); - return ToValue(y); -} - -static VALUE -BigDecimal_global_new(int argc, VALUE *argv, VALUE self) -{ - ENTER(5); - Real *pv; - S_LONG mf; - VALUE nFig; - VALUE iniValue; - - if(rb_scan_args(argc,argv,"11",&iniValue,&nFig)==1) { - mf = 0; - } else { - mf = GetPositiveInt(nFig); - } - SafeStringValue(iniValue); - GUARD_OBJ(pv,VpCreateRbObject(mf, RSTRING(iniValue)->ptr)); - return ToValue(pv); -} - -static VALUE -BigDecimal_new(int argc, VALUE *argv, VALUE self) -{ - ENTER(5); - Real *pv; - S_LONG mf; - VALUE nFig; - VALUE iniValue; - - if(rb_scan_args(argc,argv,"11",&iniValue,&nFig)==1) { - mf = 0; - } else { - mf = GetPositiveInt(nFig); - } - SafeStringValue(iniValue); - GUARD_OBJ(pv,VpNewRbClass(mf, RSTRING(iniValue)->ptr,self)); - return ToValue(pv); -} - -static VALUE -BigDecimal_limit(int argc, VALUE *argv, VALUE self) -{ - VALUE nFig; - VALUE nCur = INT2NUM(VpGetPrecLimit()); - - if(rb_scan_args(argc,argv,"01",&nFig)==1) { - int nf; - if(nFig==Qnil) return nCur; - Check_Type(nFig, T_FIXNUM); - nf = FIX2INT(nFig); - if(nf<0) { - rb_raise(rb_eArgError, "argument must be positive"); - } - VpSetPrecLimit(nf); - } - return nCur; -} - -static VALUE -BigDecimal_sign(VALUE self) -{ /* sign */ - int s = GetVpValue(self,1)->sign; - return INT2FIX(s); -} - -void -Init_bigdecimal(void) -{ - /* Initialize VP routines */ - VpInit((U_LONG)0); - - /* Class and method registration */ - rb_cBigDecimal = rb_define_class("BigDecimal",rb_cNumeric); - - /* Global function */ - rb_define_global_function("BigDecimal", BigDecimal_global_new, -1); - - /* Class methods */ - rb_define_singleton_method(rb_cBigDecimal, "new", BigDecimal_new, -1); - rb_define_singleton_method(rb_cBigDecimal, "mode", BigDecimal_mode, -1); - rb_define_singleton_method(rb_cBigDecimal, "limit", BigDecimal_limit, -1); - rb_define_singleton_method(rb_cBigDecimal, "double_fig", BigDecimal_double_fig, 0); - rb_define_singleton_method(rb_cBigDecimal, "induced_from",BigDecimal_induced_from, 1); - rb_define_singleton_method(rb_cBigDecimal, "_load", BigDecimal_load, 1); - rb_define_singleton_method(rb_cBigDecimal, "ver", BigDecimal_version, 0); - - /* Constants definition */ - rb_define_const(rb_cBigDecimal, "BASE", INT2FIX((S_INT)VpBaseVal())); - - /* Exceptions */ - rb_define_const(rb_cBigDecimal, "EXCEPTION_ALL",INT2FIX(VP_EXCEPTION_ALL)); - rb_define_const(rb_cBigDecimal, "EXCEPTION_NaN",INT2FIX(VP_EXCEPTION_NaN)); - rb_define_const(rb_cBigDecimal, "EXCEPTION_INFINITY",INT2FIX(VP_EXCEPTION_INFINITY)); - rb_define_const(rb_cBigDecimal, "EXCEPTION_UNDERFLOW",INT2FIX(VP_EXCEPTION_UNDERFLOW)); - rb_define_const(rb_cBigDecimal, "EXCEPTION_OVERFLOW",INT2FIX(VP_EXCEPTION_OVERFLOW)); - rb_define_const(rb_cBigDecimal, "EXCEPTION_ZERODIVIDE",INT2FIX(VP_EXCEPTION_ZERODIVIDE)); - - /* Computation mode */ - rb_define_const(rb_cBigDecimal, "ROUND_MODE",INT2FIX(VP_ROUND_MODE)); - rb_define_const(rb_cBigDecimal, "ROUND_UP",INT2FIX(VP_ROUND_UP)); - rb_define_const(rb_cBigDecimal, "ROUND_DOWN",INT2FIX(VP_ROUND_DOWN)); - rb_define_const(rb_cBigDecimal, "ROUND_HALF_UP",INT2FIX(VP_ROUND_HALF_UP)); - rb_define_const(rb_cBigDecimal, "ROUND_HALF_DOWN",INT2FIX(VP_ROUND_HALF_DOWN)); - rb_define_const(rb_cBigDecimal, "ROUND_CEILING",INT2FIX(VP_ROUND_CEIL)); - rb_define_const(rb_cBigDecimal, "ROUND_FLOOR",INT2FIX(VP_ROUND_FLOOR)); - rb_define_const(rb_cBigDecimal, "ROUND_HALF_EVEN",INT2FIX(VP_ROUND_HALF_EVEN)); - - /* Constants for sign value */ - rb_define_const(rb_cBigDecimal, "SIGN_NaN",INT2FIX(VP_SIGN_NaN)); - rb_define_const(rb_cBigDecimal, "SIGN_POSITIVE_ZERO",INT2FIX(VP_SIGN_POSITIVE_ZERO)); - rb_define_const(rb_cBigDecimal, "SIGN_NEGATIVE_ZERO",INT2FIX(VP_SIGN_NEGATIVE_ZERO)); - rb_define_const(rb_cBigDecimal, "SIGN_POSITIVE_FINITE",INT2FIX(VP_SIGN_POSITIVE_FINITE)); - rb_define_const(rb_cBigDecimal, "SIGN_NEGATIVE_FINITE",INT2FIX(VP_SIGN_NEGATIVE_FINITE)); - rb_define_const(rb_cBigDecimal, "SIGN_POSITIVE_INFINITE",INT2FIX(VP_SIGN_POSITIVE_INFINITE)); - rb_define_const(rb_cBigDecimal, "SIGN_NEGATIVE_INFINITE",INT2FIX(VP_SIGN_NEGATIVE_INFINITE)); - - /* instance methods */ - rb_define_method(rb_cBigDecimal, "precs", BigDecimal_prec, 0); - rb_define_method(rb_cBigDecimal, "add", BigDecimal_add2, 2); - rb_define_method(rb_cBigDecimal, "sub", BigDecimal_sub2, 2); - rb_define_method(rb_cBigDecimal, "mult", BigDecimal_mult2, 2); - rb_define_method(rb_cBigDecimal, "div",BigDecimal_div2, -1); - rb_define_method(rb_cBigDecimal, "hash", BigDecimal_hash, 0); - rb_define_method(rb_cBigDecimal, "to_s", BigDecimal_to_s, -1); - rb_define_method(rb_cBigDecimal, "to_i", BigDecimal_to_i, 0); - rb_define_method(rb_cBigDecimal, "to_int", BigDecimal_to_i, 0); - rb_define_method(rb_cBigDecimal, "split", BigDecimal_split, 0); - rb_define_method(rb_cBigDecimal, "+", BigDecimal_add, 1); - rb_define_method(rb_cBigDecimal, "-", BigDecimal_sub, 1); - rb_define_method(rb_cBigDecimal, "+@", BigDecimal_uplus, 0); - rb_define_method(rb_cBigDecimal, "-@", BigDecimal_neg, 0); - rb_define_method(rb_cBigDecimal, "*", BigDecimal_mult, 1); - rb_define_method(rb_cBigDecimal, "/", BigDecimal_div, 1); - rb_define_method(rb_cBigDecimal, "quo", BigDecimal_div, 1); - rb_define_method(rb_cBigDecimal, "%", BigDecimal_mod, 1); - rb_define_method(rb_cBigDecimal, "modulo", BigDecimal_mod, 1); - rb_define_method(rb_cBigDecimal, "remainder", BigDecimal_remainder, 1); - rb_define_method(rb_cBigDecimal, "divmod", BigDecimal_divmod, 1); - /* rb_define_method(rb_cBigDecimal, "dup", BigDecimal_dup, 0); */ - rb_define_method(rb_cBigDecimal, "to_f", BigDecimal_to_f, 0); - rb_define_method(rb_cBigDecimal, "abs", BigDecimal_abs, 0); - rb_define_method(rb_cBigDecimal, "sqrt", BigDecimal_sqrt, 1); - rb_define_method(rb_cBigDecimal, "fix", BigDecimal_fix, 0); - rb_define_method(rb_cBigDecimal, "round", BigDecimal_round, -1); - rb_define_method(rb_cBigDecimal, "frac", BigDecimal_frac, 0); - rb_define_method(rb_cBigDecimal, "floor", BigDecimal_floor, -1); - rb_define_method(rb_cBigDecimal, "ceil", BigDecimal_ceil, -1); - rb_define_method(rb_cBigDecimal, "power", BigDecimal_power, 1); - rb_define_method(rb_cBigDecimal, "**", BigDecimal_power, 1); - rb_define_method(rb_cBigDecimal, "<=>", BigDecimal_comp, 1); - rb_define_method(rb_cBigDecimal, "==", BigDecimal_eq, 1); - rb_define_method(rb_cBigDecimal, "===", BigDecimal_eq, 1); - rb_define_method(rb_cBigDecimal, "eql?", BigDecimal_eq, 1); - rb_define_method(rb_cBigDecimal, "!=", BigDecimal_ne, 1); - rb_define_method(rb_cBigDecimal, "<", BigDecimal_lt, 1); - rb_define_method(rb_cBigDecimal, "<=", BigDecimal_le, 1); - rb_define_method(rb_cBigDecimal, ">", BigDecimal_gt, 1); - rb_define_method(rb_cBigDecimal, ">=", BigDecimal_ge, 1); - rb_define_method(rb_cBigDecimal, "zero?", BigDecimal_zero, 0); - rb_define_method(rb_cBigDecimal, "nonzero?", BigDecimal_nonzero, 0); - rb_define_method(rb_cBigDecimal, "coerce", BigDecimal_coerce, 1); - rb_define_method(rb_cBigDecimal, "inspect", BigDecimal_inspect, 0); - rb_define_method(rb_cBigDecimal, "exponent", BigDecimal_exponent, 0); - rb_define_method(rb_cBigDecimal, "sign", BigDecimal_sign, 0); - rb_define_method(rb_cBigDecimal, "nan?", BigDecimal_IsNaN, 0); - rb_define_method(rb_cBigDecimal, "infinite?", BigDecimal_IsInfinite, 0); - rb_define_method(rb_cBigDecimal, "finite?", BigDecimal_IsFinite, 0); - rb_define_method(rb_cBigDecimal, "truncate", BigDecimal_truncate, -1); - rb_define_method(rb_cBigDecimal, "_dump", BigDecimal_dump, -1); -} - -/* - * - * ============================================================================ - * - * vp_ routines begin from here. - * - * ============================================================================ - * - */ -#ifdef _DEBUG -/*static int gfDebug = 1;*/ /* Debug switch */ -static int gfCheckVal = 1; /* Value checking flag in VpNmlz() */ -#endif /* _DEBUG */ - -static U_LONG gnPrecLimit = 0; /* Global upper limit of the precision newly allocated */ -static U_LONG gfRoundMode = VP_ROUND_HALF_UP; /* Mode for general rounding operation */ - -static U_LONG BASE_FIG = 4; /* =log10(BASE) */ -static U_LONG BASE = 10000L; /* Base value(value must be 10**BASE_FIG) */ - /* The value of BASE**2 + BASE must be represented */ - /* within one U_LONG. */ -static U_LONG HALF_BASE = 5000L;/* =BASE/2 */ -static S_LONG DBLE_FIG = 8; /* figure of double */ -static U_LONG BASE1 = 1000L; /* =BASE/10 */ - -static Real *VpConstOne; /* constant 1.0 */ -static Real *VpPt5; /* constant 0.5 */ -static U_LONG maxnr = 100; /* Maximum iterations for calcurating sqrt. */ - /* used in VpSqrt() */ - -/* ETC */ -#define MemCmp(x,y,z) memcmp(x,y,z) -#define StrCmp(x,y) strcmp(x,y) - -static int VpIsDefOP(Real *c,Real *a,Real *b,int sw); -static int AddExponent(Real *a,S_INT n); -static U_LONG VpAddAbs(Real *a,Real *b,Real *c); -static U_LONG VpSubAbs(Real *a,Real *b,Real *c); -static U_LONG VpSetPTR(Real *a,Real *b,Real *c,U_LONG *a_pos,U_LONG *b_pos,U_LONG *c_pos,U_LONG *av,U_LONG *bv); -static int VpNmlz(Real *a); -static void VpFormatSt(char *psz,S_INT fFmt); -static int VpRdup(Real *m,U_LONG ind_m); - -#ifdef _DEBUG -static int gnAlloc=0; /* Memory allocation counter */ -#endif /* _DEBUG */ - -VP_EXPORT void * -VpMemAlloc(U_LONG mb) -{ - void *p = xmalloc((unsigned int)mb); - if(!p) { - VpException(VP_EXCEPTION_MEMORY,"failed to allocate memory",1); - } - memset(p,0,mb); -#ifdef _DEBUG - gnAlloc++; /* Count allocation call */ -#endif /* _DEBUG */ - return p; -} - -VP_EXPORT void -VpFree(Real *pv) -{ - if(pv != NULL) { - xfree(pv); -#ifdef _DEBUG - gnAlloc--; /* Decrement allocation count */ - if(gnAlloc==0) { - printf(" *************** All memories allocated freed ****************"); - getchar(); - } - if(gnAlloc<0) { - printf(" ??????????? Too many memory free calls(%d) ?????????????\n",gnAlloc); - getchar(); - } -#endif /* _DEBUG */ - } -} - -/* - * EXCEPTION Handling. - */ -static unsigned short gfDoException = 0; /* Exception flag */ - -static unsigned short -VpGetException (void) -{ - return gfDoException; -} - -static void -VpSetException(unsigned short f) -{ - gfDoException = f; -} - -/* These 2 functions added at v1.1.7 */ -VP_EXPORT U_LONG -VpGetPrecLimit(void) -{ - return gnPrecLimit; -} - -VP_EXPORT U_LONG -VpSetPrecLimit(U_LONG n) -{ - U_LONG s = gnPrecLimit; - gnPrecLimit = n; - return s; -} - -VP_EXPORT unsigned long -VpGetRoundMode(void) -{ - return gfRoundMode; -} - -VP_EXPORT int -VpIsRoundMode(unsigned long n) -{ - if(n==VP_ROUND_UP || n!=VP_ROUND_DOWN || - n==VP_ROUND_HALF_UP || n!=VP_ROUND_HALF_DOWN || - n==VP_ROUND_CEIL || n!=VP_ROUND_FLOOR || - n==VP_ROUND_HALF_EVEN - ) return 1; - return 0; -} - -VP_EXPORT unsigned long -VpSetRoundMode(unsigned long n) -{ - if(VpIsRoundMode(n)) gfRoundMode = n; - return gfRoundMode; -} - -/* - * 0.0 & 1.0 generator - * These gZero_..... and gOne_..... can be any name - * referenced from nowhere except Zero() and One(). - * gZero_..... and gOne_..... must have global scope - * (to let the compiler know they may be changed in outside - * (... but not actually..)). - */ -volatile double gZero_ABCED9B1_CE73__00400511F31D = 0.0; -volatile double gOne_ABCED9B4_CE73__00400511F31D = 1.0; -static double -Zero(void) -{ - return gZero_ABCED9B1_CE73__00400511F31D; -} - -static double -One(void) -{ - return gOne_ABCED9B4_CE73__00400511F31D; -} - -VP_EXPORT U_LONG -VpBaseFig(void) -{ - return BASE_FIG; -} - -VP_EXPORT U_LONG -VpDblFig(void) -{ - return DBLE_FIG; -} - -VP_EXPORT U_LONG -VpBaseVal(void) -{ - return BASE; -} - -/* - ---------------------------------------------------------------- - Value of sign in Real structure is reserved for future use. - short sign; - ==0 : NaN - 1 : Positive zero - -1 : Negative zero - 2 : Positive number - -2 : Negative number - 3 : Positive infinite number - -3 : Negative infinite number - ---------------------------------------------------------------- -*/ - -VP_EXPORT double -VpGetDoubleNaN(void) /* Returns the value of NaN */ -{ - static double fNaN = 0.0; - if(fNaN==0.0) fNaN = Zero()/Zero(); - return fNaN; -} - -VP_EXPORT double -VpGetDoublePosInf(void) /* Returns the value of +Infinity */ -{ - static double fInf = 0.0; - if(fInf==0.0) fInf = One()/Zero(); - return fInf; -} - -VP_EXPORT double -VpGetDoubleNegInf(void) /* Returns the value of -Infinity */ -{ - static double fInf = 0.0; - if(fInf==0.0) fInf = -(One()/Zero()); - return fInf; -} - -VP_EXPORT double -VpGetDoubleNegZero(void) /* Returns the value of -0 */ -{ - static double nzero = 1000.0; - if(nzero!=0.0) nzero = (One()/VpGetDoubleNegInf()); - return nzero; -} - -VP_EXPORT int -VpIsNegDoubleZero(double v) -{ - double z = VpGetDoubleNegZero(); - return MemCmp(&v,&z,sizeof(v))==0; -} - -VP_EXPORT int -VpException(unsigned short f,char *str,int always) -{ - VALUE exc; - int fatal=0; - - if(f==VP_EXCEPTION_OP || f==VP_EXCEPTION_MEMORY) always = 1; - - if(always||(gfDoException&f)) { - switch(f) - { - /* - case VP_EXCEPTION_ZERODIVIDE: - case VP_EXCEPTION_OVERFLOW: - */ - case VP_EXCEPTION_INFINITY: - exc = rb_eFloatDomainError; - goto raise; - case VP_EXCEPTION_NaN: - exc = rb_eFloatDomainError; - goto raise; - case VP_EXCEPTION_UNDERFLOW: - exc = rb_eFloatDomainError; - goto raise; - case VP_EXCEPTION_OP: - exc = rb_eFloatDomainError; - goto raise; - case VP_EXCEPTION_MEMORY: - fatal = 1; - goto raise; - default: - fatal = 1; - goto raise; - } - } - return 0; /* 0 Means VpException() raised no exception */ - -raise: - if(fatal) rb_fatal(str); - else rb_raise(exc,str); - return 0; -} - -/* Throw exception or returns 0,when resulting c is Inf or NaN */ -/* sw=1:+ 2:- 3:* 4:/ */ -static int -VpIsDefOP(Real *c,Real *a,Real *b,int sw) -{ - if(VpIsNaN(a) || VpIsNaN(b)) { - /* at least a or b is NaN */ - VpSetNaN(c); - goto NaN; - } - - if(VpIsInf(a)) { - if(VpIsInf(b)) { - switch(sw) - { - case 1: /* + */ - if(VpGetSign(a)==VpGetSign(b)) { - VpSetInf(c,VpGetSign(a)); - goto Inf; - } else { - VpSetNaN(c); - goto NaN; - } - case 2: /* - */ - if(VpGetSign(a)!=VpGetSign(b)) { - VpSetInf(c,VpGetSign(a)); - goto Inf; - } else { - VpSetNaN(c); - goto NaN; - } - break; - case 3: /* * */ - VpSetInf(c,VpGetSign(a)*VpGetSign(b)); - goto Inf; - break; - case 4: /* / */ - VpSetNaN(c); - goto NaN; - } - VpSetNaN(c); - goto NaN; - } - /* Inf op Finite */ - switch(sw) - { - case 1: /* + */ - case 2: /* - */ - VpSetInf(c,VpGetSign(a)); - break; - case 3: /* * */ - if(VpIsZero(b)) { - VpSetNaN(c); - goto NaN; - } - VpSetInf(c,VpGetSign(a)*VpGetSign(b)); - break; - case 4: /* / */ - VpSetInf(c,VpGetSign(a)*VpGetSign(b)); - } - goto Inf; - } - - if(VpIsInf(b)) { - switch(sw) - { - case 1: /* + */ - VpSetInf(c,VpGetSign(b)); - break; - case 2: /* - */ - VpSetInf(c,-VpGetSign(b)); - break; - case 3: /* * */ - if(VpIsZero(a)) { - VpSetNaN(c); - goto NaN; - } - VpSetInf(c,VpGetSign(a)*VpGetSign(b)); - break; - case 4: /* / */ - VpSetZero(c,VpGetSign(a)*VpGetSign(b)); - } - goto Inf; - } - return 1; /* Results OK */ - -Inf: - return VpException(VP_EXCEPTION_INFINITY,"Computation results to 'Infinity'",0); -NaN: - return VpException(VP_EXCEPTION_NaN,"Computation results to 'NaN'",0); -} - -/* - ---------------------------------------------------------------- -*/ - -/* - * returns number of chars needed to represent vp in specified format. - */ -VP_EXPORT U_LONG -VpNumOfChars(Real *vp,char *pszFmt) -{ - S_INT ex; - U_LONG nc; - - if(vp == NULL) return BASE_FIG*2+6; - if(!VpIsDef(vp)) return 32; /* not sure,may be OK */ - - switch(*pszFmt) - { - case 'F': - nc = BASE_FIG*(vp->Prec + 1)+2; - ex = vp->exponent; - if(ex<0) { - nc += BASE_FIG*(-ex); - } else { - if(ex > (S_INT)vp->Prec) { - nc += BASE_FIG*(ex - (S_INT)vp->Prec); - } - } - break; - case 'E': - default: - nc = BASE_FIG*(vp->Prec + 2)+6; /* 3: sign + exponent chars */ - } - return nc; -} - -/* - * Initializer for Vp routines and constants used. - * [Input] - * BaseVal: Base value(assigned to BASE) for Vp calculation. - * It must be the form BaseVal=10**n.(n=1,2,3,...) - * If Base <= 0L,then the BASE will be calcurated so - * that BASE is as large as possible satisfying the - * relation MaxVal <= BASE*(BASE+1). Where the value - * MaxVal is the largest value which can be represented - * by one U_LONG word(LONG) in the computer used. - * - * [Returns] - * DBLE_FIG ... OK - */ -VP_EXPORT U_LONG -VpInit(U_LONG BaseVal) -{ - U_LONG w; - double v; - - /* Setup +/- Inf NaN -0 */ - VpGetDoubleNaN(); - VpGetDoublePosInf(); - VpGetDoubleNegInf(); - VpGetDoubleNegZero(); - - if(BaseVal <= 0) { - /* Base <= 0, then determine Base by calcuration. */ - BASE = 1; - while( - (BASE > 0) && - ((w = BASE *(BASE + 1)) > BASE) &&((w / BASE) ==(BASE + 1)) - ) { - BaseVal = BASE; - BASE = BaseVal * 10L; - } - } - /* Set Base Values */ - BASE = BaseVal; - HALF_BASE = BASE / 2; - BASE1 = BASE / 10; - BASE_FIG = 0; - while(BaseVal /= 10) ++BASE_FIG; - /* Allocates Vp constants. */ - VpConstOne = VpAlloc((U_LONG)1, "1"); - VpPt5 = VpAlloc((U_LONG)1, ".5"); - -#ifdef _DEBUG - gnAlloc = 0; -#endif /* _DEBUG */ - - /* Determine # of digits available in one 'double'. */ - - v = 1.0; - DBLE_FIG = 0; - while(v + 1.0 > 1.0) { - ++DBLE_FIG; - v /= 10; - } - -#ifdef _DEBUG - if(gfDebug) { - printf("VpInit: BaseVal = %lu\n", BaseVal); - printf(" BASE = %lu\n", BASE); - printf(" HALF_BASE = %lu\n", HALF_BASE); - printf(" BASE1 = %lu\n", BASE1); - printf(" BASE_FIG = %lu\n", BASE_FIG); - printf(" DBLE_FIG = %lu\n", DBLE_FIG); - } -#endif /* _DEBUG */ - - return DBLE_FIG; -} - -VP_EXPORT Real * -VpOne() -{ - return VpConstOne; -} - -/* If exponent overflows,then raise exception or returns 0 */ -static int -AddExponent(Real *a,S_INT n) -{ - S_INT e = a->exponent; - S_INT m = e+n; - S_INT eb,mb; - if(e>0) { - if(n>0) { - mb = m*BASE_FIG; - eb = e*BASE_FIG; - if(mbeb) goto underflow; - } - a->exponent = m; - return 1; - -/* Overflow/Underflow ==> Raise exception or returns 0 */ -underflow: - VpSetZero(a,VpGetSign(a)); - return VpException(VP_EXCEPTION_UNDERFLOW,"Exponent underflow",0); - -overflow: - VpSetInf(a,VpGetSign(a)); - return VpException(VP_EXCEPTION_OVERFLOW,"Exponent overflow",0); -} - -/* - * Allocates variable. - * [Input] - * mx ... allocation unit, if zero then mx is determined by szVal. - * The mx is the number of effective digits can to be stored. - * szVal ... value assigned(char). If szVal==NULL,then zero is assumed. - * If szVal[0]=='#' then Max. Prec. will not be considered(1.1.7), - * full precision specified by szVal is allocated. - * - * [Returns] - * Pointer to the newly allocated variable, or - * NULL be returned if memory allocation is failed,or any error. - */ -VP_EXPORT Real * -VpAlloc(U_LONG mx, char *szVal) -{ - U_LONG i, ni, ipn, ipf, nf, ipe, ne, nalloc; - char v,*psz; - int sign=1; - Real *vp = NULL; - U_LONG mf = VpGetPrecLimit(); - - mx = (mx + BASE_FIG - 1) / BASE_FIG + 1; /* Determine allocation unit. */ - if(szVal) { - while(ISSPACE(*szVal)) szVal++; - if(*szVal!='#') { - if(mf) { - mf = (mf + BASE_FIG - 1) / BASE_FIG + 2; /* Needs 1 more for div */ - if(mx>mf) { - mx = mf; - } - } - } else { - ++szVal; - } - } else { - /* necessary to be able to store */ - /* at least mx digits. */ - /* szVal==NULL ==> allocate zero value. */ - vp = (Real *) VpMemAlloc(sizeof(Real) + mx * sizeof(U_LONG)); - /* xmalloc() alway returns(or throw interruption) */ - vp->MaxPrec = mx; /* set max precision */ - VpSetZero(vp,1); /* initialize vp to zero. */ - return vp; - } - - /* Skip all spaces */ - psz = ALLOCA_N(char,strlen(szVal)+1); - i = 0; - ipn = 0; - while(psz[i]=szVal[ipn]) { - if(ISSPACE(szVal[ipn])) {ipn++;continue;} - ++i; ++ipn; - } - szVal = psz; - - /* Check on Inf & NaN */ - if(StrCmp(szVal,SZ_PINF)==0 || - StrCmp(szVal,SZ_INF)==0 ) { - vp = (Real *) VpMemAlloc(sizeof(Real) + sizeof(U_LONG)); - vp->MaxPrec = 1; /* set max precision */ - VpSetPosInf(vp); - return vp; - } - if(StrCmp(szVal,SZ_NINF)==0) { - vp = (Real *) VpMemAlloc(sizeof(Real) + sizeof(U_LONG)); - vp->MaxPrec = 1; /* set max precision */ - VpSetNegInf(vp); - return vp; - } - if(StrCmp(szVal,SZ_NaN)==0) { - vp = (Real *) VpMemAlloc(sizeof(Real) + sizeof(U_LONG)); - vp->MaxPrec = 1; /* set max precision */ - VpSetNaN(vp); - return vp; - } - - /* check on number szVal[] */ - ipn = i = 0; - if (szVal[i] == '-') {sign=-1;++i;} - else if(szVal[i] == '+') ++i; - /* Skip digits */ - ni = 0; /* digits in mantissa */ - while(v = szVal[i]) { - if(!ISDIGIT(v)) break; - ++i; - ++ni; - } - nf = 0; - ipf = 0; - ipe = 0; - ne = 0; - if(v) { - /* other than digit nor \0 */ - if(szVal[i] == '.') { /* xxx. */ - ++i; - ipf = i; - while(v = szVal[i]) { /* get fraction part. */ - if(!ISDIGIT(v)) break; - ++i; - ++nf; - } - } - ipe = 0; /* Exponent */ - - switch(szVal[i]) { - case '\0': break; - case 'e': - case 'E': - case 'd': - case 'D': - ++i; - ipe = i; - v = szVal[i]; - if((v == '-') ||(v == '+')) ++i; - while(v=szVal[i]) { - if(!ISDIGIT(v)) break; - ++i; - ++ne; - } - break; - default: - break; - } - } - nalloc =(ni + nf + BASE_FIG - 1) / BASE_FIG + 1; /* set effective allocation */ - /* units for szVal[] */ - if(mx <= 0) mx = 1; - nalloc = Max(nalloc, mx); - mx = nalloc; - vp =(Real *) VpMemAlloc(sizeof(Real) + mx * sizeof(U_LONG)); - /* xmalloc() alway returns(or throw interruption) */ - vp->MaxPrec = mx; /* set max precision */ - VpSetZero(vp,sign); - VpCtoV(vp, &(szVal[ipn]), ni, &(szVal[ipf]), nf, &(szVal[ipe]), ne); - return vp; -} - -/* - * Assignment(c=a). - * [Input] - * a ... RHSV - * isw ... switch for assignment. - * c = a when isw > 0 - * c = -a when isw < 0 - * if c->MaxPrec < a->Prec,then round operation - * will be performed. - * [Output] - * c ... LHSV - */ -VP_EXPORT int -VpAsgn(Real *c, Real *a, int isw) -{ - U_LONG n; - if(VpIsNaN(a)) { - VpSetNaN(c); - return 0; - } - if(VpIsInf(a)) { - VpSetInf(c,isw*VpGetSign(a)); - return 0; - } - - /* check if the RHS is zero */ - if(!VpIsZero(a)) { - c->exponent = a->exponent; /* store exponent */ - VpSetSign(c,(isw*VpGetSign(a))); /* set sign */ - n =(a->Prec < c->MaxPrec) ?(a->Prec) :(c->MaxPrec); - c->Prec = n; - memcpy(c->frac, a->frac, n * sizeof(U_LONG)); - /* Needs round ? */ - if(isw!=10) { - /* Not in ActiveRound */ - if(c->Prec < a->Prec) { - VpInternalRound(c,n,(n>0)?a->frac[n-1]:0,a->frac[n]); - } else { - VpLimitRound(c,0); - } - } - } else { - /* The value of 'a' is zero. */ - VpSetZero(c,isw*VpGetSign(a)); - return 1; - } - return c->Prec*BASE_FIG; -} - -/* - * c = a + b when operation = 1 or 2 - * = a - b when operation = -1 or -2. - * Returns number of significant digits of c - */ -VP_EXPORT int -VpAddSub(Real *c, Real *a, Real *b, int operation) -{ - S_INT sw, isw; - Real *a_ptr, *b_ptr; - U_LONG n, na, nb, i; - U_LONG mrv; - -#ifdef _DEBUG - if(gfDebug) { - VPrint(stdout, "VpAddSub(enter) a=% \n", a); - VPrint(stdout, " b=% \n", b); - printf(" operation=%d\n", operation); - } -#endif /* _DEBUG */ - - if(!VpIsDefOP(c,a,b,(operation>0)?1:2)) return 0; /* No significant digits */ - - /* check if a or b is zero */ - if(VpIsZero(a)) { - /* a is zero,then assign b to c */ - if(!VpIsZero(b)) { - VpAsgn(c, b, operation); - } else { - /* Both a and b are zero. */ - if(VpGetSign(a)<0 && operation*VpGetSign(b)<0) { - /* -0 -0 */ - VpSetZero(c,-1); - } else { - VpSetZero(c,1); - } - return 1; /* 0: 1 significant digits */ - } - return c->Prec*BASE_FIG; - } - if(VpIsZero(b)) { - /* b is zero,then assign a to c. */ - VpAsgn(c, a, 1); - return c->Prec*BASE_FIG; - } - - if(operation < 0) sw = -1; - else sw = 1; - - /* compare absolute value. As a result,|a_ptr|>=|b_ptr| */ - if(a->exponent > b->exponent) { - a_ptr = a; - b_ptr = b; - } /* |a|>|b| */ - else if(a->exponent < b->exponent) { - a_ptr = b; - b_ptr = a; - } /* |a|<|b| */ - else { - /* Exponent part of a and b is the same,then compare fraction */ - /* part */ - na = a->Prec; - nb = b->Prec; - n = Min(na, nb); - for(i=0;i < n; ++i) { - if(a->frac[i] > b->frac[i]) { - a_ptr = a; - b_ptr = b; - goto end_if; - } else if(a->frac[i] < b->frac[i]) { - a_ptr = b; - b_ptr = a; - goto end_if; - } - } - if(na > nb) { - a_ptr = a; - b_ptr = b; - goto end_if; - } else if(na < nb) { - a_ptr = b; - b_ptr = a; - goto end_if; - } - /* |a| == |b| */ - if(VpGetSign(a) + sw *VpGetSign(b) == 0) { - VpSetZero(c,1); /* abs(a)=abs(b) and operation = '-' */ - return c->Prec*BASE_FIG; - } - a_ptr = a; - b_ptr = b; - } - -end_if: - isw = VpGetSign(a) + sw *VpGetSign(b); - /* - * isw = 0 ...( 1)+(-1),( 1)-( 1),(-1)+(1),(-1)-(-1) - * = 2 ...( 1)+( 1),( 1)-(-1) - * =-2 ...(-1)+(-1),(-1)-( 1) - * If isw==0, then c =(Sign a_ptr)(|a_ptr|-|b_ptr|) - * else c =(Sign ofisw)(|a_ptr|+|b_ptr|) - */ - if(isw) { /* addition */ - VpSetSign(c,(S_INT)1); - mrv = VpAddAbs(a_ptr, b_ptr, c); - VpSetSign(c,isw / 2); - } else { /* subtraction */ - VpSetSign(c,(S_INT)1); - mrv = VpSubAbs(a_ptr, b_ptr, c); - if(a_ptr == a) { - VpSetSign(c,VpGetSign(a)); - } else { - VpSetSign(c,VpGetSign(a_ptr) * sw); - } - } - VpInternalRound(c,0,(c->Prec>0)?c->frac[c->Prec-1]:0,mrv); - -#ifdef _DEBUG - if(gfDebug) { - VPrint(stdout, "VpAddSub(result) c=% \n", c); - VPrint(stdout, " a=% \n", a); - VPrint(stdout, " b=% \n", b); - printf(" operation=%d\n", operation); - } -#endif /* _DEBUG */ - return c->Prec*BASE_FIG; -} - -/* - * Addition of two variable precisional variables - * a and b assuming abs(a)>abs(b). - * c = abs(a) + abs(b) ; where |a|>=|b| - */ -static U_LONG -VpAddAbs(Real *a, Real *b, Real *c) -{ - U_LONG word_shift; - U_LONG carry; - U_LONG ap; - U_LONG bp; - U_LONG cp; - U_LONG a_pos; - U_LONG b_pos; - U_LONG c_pos; - U_LONG av, bv, mrv; - -#ifdef _DEBUG - if(gfDebug) { - VPrint(stdout, "VpAddAbs called: a = %\n", a); - VPrint(stdout, " b = %\n", b); - } -#endif /* _DEBUG */ - - word_shift = VpSetPTR(a, b, c, &ap, &bp, &cp, &av, &bv); - a_pos = ap; - b_pos = bp; - c_pos = cp; - if(word_shift==-1L) return 0; /* Overflow */ - if(b_pos == -1L) goto Assign_a; - - mrv = av + bv; /* Most right val. Used for round. */ - - /* Just assign the last few digits of b to c because a has no */ - /* corresponding digits to be added. */ - while(b_pos + word_shift > a_pos) { - --c_pos; - if(b_pos > 0) { - --b_pos; - c->frac[c_pos] = b->frac[b_pos]; - } else { - --word_shift; - c->frac[c_pos] = 0; - } - } - - /* Just assign the last few digits of a to c because b has no */ - /* corresponding digits to be added. */ - bv = b_pos + word_shift; - while(a_pos > bv) { - --c_pos; - --a_pos; - c->frac[c_pos] = a->frac[a_pos]; - } - carry = 0; /* set first carry be zero */ - - /* Now perform addition until every digits of b will be */ - /* exhausted. */ - while(b_pos > 0) { - --a_pos; - --b_pos; - --c_pos; - c->frac[c_pos] = a->frac[a_pos] + b->frac[b_pos] + carry; - if(c->frac[c_pos] >= BASE) { - c->frac[c_pos] -= BASE; - carry = 1; - } else { - carry = 0; - } - } - - /* Just assign the first few digits of a with considering */ - /* the carry obtained so far because b has been exhausted. */ - while(a_pos > 0) { - --a_pos; - --c_pos; - c->frac[c_pos] = a->frac[a_pos] + carry; - if(c->frac[c_pos] >= BASE) { - c->frac[c_pos] -= BASE; - carry = 1; - } else { - carry = 0; - } - } - if(c_pos) c->frac[c_pos - 1] += carry; - goto Exit; - -Assign_a: - VpAsgn(c, a, 1); - mrv = 0; - -Exit: - -#ifdef _DEBUG - if(gfDebug) { - VPrint(stdout, "VpAddAbs exit: c=% \n", c); - } -#endif /* _DEBUG */ - return mrv; -} - -/* - * c = abs(a) - abs(b) - */ -static U_LONG -VpSubAbs(Real *a, Real *b, Real *c) -{ - U_LONG word_shift; - U_LONG mrv; - U_LONG borrow; - U_LONG ap; - U_LONG bp; - U_LONG cp; - U_LONG a_pos; - U_LONG b_pos; - U_LONG c_pos; - U_LONG av, bv; - -#ifdef _DEBUG - if(gfDebug) { - VPrint(stdout, "VpSubAbs called: a = %\n", a); - VPrint(stdout, " b = %\n", b); - } -#endif /* _DEBUG */ - - word_shift = VpSetPTR(a, b, c, &ap, &bp, &cp, &av, &bv); - a_pos = ap; - b_pos = bp; - c_pos = cp; - if(word_shift==-1L) return 0; /* Overflow */ - if(b_pos == -1L) goto Assign_a; - - if(av >= bv) { - mrv = av - bv; - borrow = 0; - } else { - mrv = 0; - borrow = 1; - } - - /* Just assign the values which are the BASE subtracted by */ - /* each of the last few digits of the b because the a has no */ - /* corresponding digits to be subtracted. */ - if(b_pos + word_shift > a_pos) { - borrow = 1; - --c_pos; - --b_pos; - c->frac[c_pos] = BASE - b->frac[b_pos]; - while(b_pos + word_shift > a_pos) { - --c_pos; - if(b_pos > 0) { - --b_pos; - c->frac[c_pos] = BASE - b->frac[b_pos] - borrow; - } else { - --word_shift; - c->frac[c_pos] = BASE - borrow; - } - } - } - /* Just assign the last few digits of a to c because b has no */ - /* corresponding digits to subtract. */ - - bv = b_pos + word_shift; - while(a_pos > bv) { - --c_pos; - --a_pos; - c->frac[c_pos] = a->frac[a_pos]; - } - - /* Now perform subtraction until every digits of b will be */ - /* exhausted. */ - while(b_pos > 0) { - --a_pos; - --b_pos; - --c_pos; - if(a->frac[a_pos] < b->frac[b_pos] + borrow) { - c->frac[c_pos] = BASE + a->frac[a_pos] - b->frac[b_pos] - borrow; - borrow = 1; - } else { - c->frac[c_pos] = a->frac[a_pos] - b->frac[b_pos] - borrow; - borrow = 0; - } - } - - /* Just assign the first few digits of a with considering */ - /* the borrow obtained so far because b has been exhausted. */ - while(a_pos > 0) { - --c_pos; - --a_pos; - if(a->frac[a_pos] < borrow) { - c->frac[c_pos] = BASE + a->frac[a_pos] - borrow; - borrow = 1; - } else { - c->frac[c_pos] = a->frac[a_pos] - borrow; - borrow = 0; - } - } - if(c_pos) c->frac[c_pos - 1] -= borrow; - goto Exit; - -Assign_a: - VpAsgn(c, a, 1); - mrv = 0; - -Exit: -#ifdef _DEBUG - if(gfDebug) { - VPrint(stdout, "VpSubAbs exit: c=% \n", c); - } -#endif /* _DEBUG */ - return mrv; -} - -/* - * Note: If(av+bv)>= HALF_BASE,then 1 will be added to the least significant - * digit of c(In case of addition). - * ------------------------- figure of output ----------------------------------- - * a = xxxxxxxxxxx - * b = xxxxxxxxxx - * c =xxxxxxxxxxxxxxx - * word_shift = | | - * right_word = | | (Total digits in RHSV) - * left_word = | | (Total digits in LHSV) - * a_pos = | - * b_pos = | - * c_pos = | - */ -static U_LONG -VpSetPTR(Real *a, Real *b, Real *c, U_LONG *a_pos, U_LONG *b_pos, U_LONG *c_pos, U_LONG *av, U_LONG *bv) -{ - U_LONG left_word, right_word, word_shift; - c->frac[0] = 0; - *av = *bv = 0; - word_shift =((a->exponent) -(b->exponent)); - left_word = b->Prec + word_shift; - right_word = Max((a->Prec),left_word); - left_word =(c->MaxPrec) - 1; /* -1 ... prepare for round up */ - /* - * check if 'round' is needed. - */ - if(right_word > left_word) { /* round ? */ - /*--------------------------------- - * Actual size of a = xxxxxxAxx - * Actual size of b = xxxBxxxxx - * Max. size of c = xxxxxx - * Round off = |-----| - * c_pos = | - * right_word = | - * a_pos = | - */ - *c_pos = right_word = left_word + 1; /* Set resulting precision */ - /* be equal to that of c */ - if((a->Prec) >=(c->MaxPrec)) { - /* - * a = xxxxxxAxxx - * c = xxxxxx - * a_pos = | - */ - *a_pos = left_word; - *av = a->frac[*a_pos]; /* av is 'A' shown in above. */ - } else { - /* - * a = xxxxxxx - * c = xxxxxxxxxx - * a_pos = | - */ - *a_pos = a->Prec; - } - if((b->Prec + word_shift) >= c->MaxPrec) { - /* - * a = xxxxxxxxx - * b = xxxxxxxBxxx - * c = xxxxxxxxxxx - * b_pos = | - */ - if(c->MaxPrec >=(word_shift + 1)) { - *b_pos = c->MaxPrec - word_shift - 1; - *bv = b->frac[*b_pos]; - } else { - *b_pos = -1L; - } - } else { - /* - * a = xxxxxxxxxxxxxxxx - * b = xxxxxx - * c = xxxxxxxxxxxxx - * b_pos = | - */ - *b_pos = b->Prec; - } - } else { /* The MaxPrec of c - 1 > The Prec of a + b */ - /* - * a = xxxxxxx - * b = xxxxxx - * c = xxxxxxxxxxx - * c_pos = | - */ - *b_pos = b->Prec; - *a_pos = a->Prec; - *c_pos = right_word + 1; - } - c->Prec = *c_pos; - c->exponent = a->exponent; - if(!AddExponent(c,(S_LONG)1)) return (-1L); - return word_shift; -} - -/* - * Return number og significant digits - * c = a * b , Where a = a0a1a2 ... an - * b = b0b1b2 ... bm - * c = c0c1c2 ... cl - * a0 a1 ... an * bm - * a0 a1 ... an * bm-1 - * . . . - * . . . - * a0 a1 .... an * b0 - * +_____________________________ - * c0 c1 c2 ...... cl - * nc <---| - * MaxAB |--------------------| - */ -VP_EXPORT int -VpMult(Real *c, Real *a, Real *b) -{ - U_LONG MxIndA, MxIndB, MxIndAB, MxIndC; - U_LONG ind_c, i, ii, nc; - U_LONG ind_as, ind_ae, ind_bs, ind_be; - U_LONG Carry, s; - Real *w; - -#ifdef _DEBUG - if(gfDebug) { - VPrint(stdout, "VpMult(Enter): a=% \n", a); - VPrint(stdout, " b=% \n", b); - } -#endif /* _DEBUG */ - - if(!VpIsDefOP(c,a,b,3)) return 0; /* No significant digit */ - - if(VpIsZero(a) || VpIsZero(b)) { - /* at least a or b is zero */ - VpSetZero(c,VpGetSign(a)*VpGetSign(b)); - return 1; /* 0: 1 significant digit */ - } - - if(VpIsOne(a)) { - VpAsgn(c, b, VpGetSign(a)); - goto Exit; - } - if(VpIsOne(b)) { - VpAsgn(c, a, VpGetSign(b)); - goto Exit; - } - if((b->Prec) >(a->Prec)) { - /* Adjust so that digits(a)>digits(b) */ - w = a; - a = b; - b = w; - } - w = NULL; - MxIndA = a->Prec - 1; - MxIndB = b->Prec - 1; - MxIndC = c->MaxPrec - 1; - MxIndAB = a->Prec + b->Prec - 1; - - if(MxIndC < MxIndAB) { /* The Max. prec. of c < Prec(a)+Prec(b) */ - w = c; - c = VpAlloc((U_LONG)((MxIndAB + 1) * BASE_FIG), "#0"); - MxIndC = MxIndAB; - } - - /* set LHSV c info */ - - c->exponent = a->exponent; /* set exponent */ - if(!AddExponent(c,b->exponent)) return 0; - VpSetSign(c,VpGetSign(a)*VpGetSign(b)); /* set sign */ - Carry = 0; - nc = ind_c = MxIndAB; - memset(c->frac, 0, (nc + 1) * sizeof(U_LONG)); /* Initialize c */ - c->Prec = nc + 1; /* set precision */ - for(nc = 0; nc < MxIndAB; ++nc, --ind_c) { - if(nc < MxIndB) { /* The left triangle of the Fig. */ - ind_as = MxIndA - nc; - ind_ae = MxIndA; - ind_bs = MxIndB; - ind_be = MxIndB - nc; - } else if(nc <= MxIndA) { /* The middle rectangular of the Fig. */ - ind_as = MxIndA - nc; - ind_ae = MxIndA -(nc - MxIndB); - ind_bs = MxIndB; - ind_be = 0; - } else if(nc > MxIndA) { /* The right triangle of the Fig. */ - ind_as = 0; - ind_ae = MxIndAB - nc - 1; - ind_bs = MxIndB -(nc - MxIndA); - ind_be = 0; - } - - for(i = ind_as; i <= ind_ae; ++i) { - s =((a->frac[i]) *(b->frac[ind_bs--])); - Carry = s / BASE; - s = s -(Carry * BASE); - c->frac[ind_c] += s; - if(c->frac[ind_c] >= BASE) { - s = c->frac[ind_c] / BASE; - Carry += s; - c->frac[ind_c] -= (s * BASE); - } - if(Carry) { - ii = ind_c; - while((--ii) >= 0) { - c->frac[ii] += Carry; - if(c->frac[ii] >= BASE) { - Carry = c->frac[ii] / BASE; - c->frac[ii] -=(Carry * BASE); - } else { - break; - } - } - } - } - } - if(w != NULL) { /* free work variable */ - VpNmlz(c); - VpAsgn(w, c, 1); - VpFree(c); - c = w; - } else { - VpLimitRound(c,0); - } - -Exit: -#ifdef _DEBUG - if(gfDebug) { - VPrint(stdout, "VpMult(c=a*b): c=% \n", c); - VPrint(stdout, " a=% \n", a); - VPrint(stdout, " b=% \n", b); - } -#endif /*_DEBUG */ - return c->Prec*BASE_FIG; -} - -/* - * c = a / b, remainder = r - */ -VP_EXPORT int -VpDivd(Real *c, Real *r, Real *a, Real *b) -{ - U_LONG word_a, word_b, word_c, word_r; - U_LONG i, n, ind_a, ind_b, ind_c, ind_r; - U_LONG nLoop; - U_LONG q, b1, b1p1, b1b2, b1b2p1, r1r2; - U_LONG borrow, borrow1, borrow2, qb; - -#ifdef _DEBUG - if(gfDebug) { - VPrint(stdout, " VpDivd(c=a/b) a=% \n", a); - VPrint(stdout, " b=% \n", b); - } -#endif /*_DEBUG */ - - VpSetNaN(r); - if(!VpIsDefOP(c,a,b,4)) goto Exit; - if(VpIsZero(a)&&VpIsZero(b)) { - VpSetNaN(c); - return VpException(VP_EXCEPTION_NaN,"(VpDivd) 0/0 not defined(NaN)",0); - } - if(VpIsZero(b)) { - VpSetInf(c,VpGetSign(a)*VpGetSign(b)); - return VpException(VP_EXCEPTION_ZERODIVIDE,"(VpDivd) Divide by zero",0); - } - if(VpIsZero(a)) { - /* numerator a is zero */ - VpSetZero(c,VpGetSign(a)*VpGetSign(b)); - VpSetZero(r,VpGetSign(a)*VpGetSign(b)); - goto Exit; - } - if(VpIsOne(b)) { - /* divide by one */ - VpAsgn(c, a, VpGetSign(b)); - VpSetZero(r,VpGetSign(a)); - goto Exit; - } - - word_a = a->Prec; - word_b = b->Prec; - word_c = c->MaxPrec; - word_r = r->MaxPrec; - - ind_c = 0; - ind_r = 1; - - if(word_a >= word_r) goto space_error; - - r->frac[0] = 0; - while(ind_r <= word_a) { - r->frac[ind_r] = a->frac[ind_r - 1]; - ++ind_r; - } - - while(ind_r < word_r) r->frac[ind_r++] = 0; - while(ind_c < word_c) c->frac[ind_c++] = 0; - - /* initial procedure */ - b1 = b1p1 = b->frac[0]; - if(b->Prec <= 1) { - b1b2p1 = b1b2 = b1p1 * BASE; - } else { - b1p1 = b1 + 1; - b1b2p1 = b1b2 = b1 * BASE + b->frac[1]; - if(b->Prec > 2) ++b1b2p1; - } - - /* */ - /* loop start */ - ind_c = word_r - 1; - nLoop = Min(word_c,ind_c); - ind_c = 1; - while(ind_c < nLoop) { - if(r->frac[ind_c] == 0) { - ++ind_c; - continue; - } - r1r2 = r->frac[ind_c] * BASE + r->frac[ind_c + 1]; - if(r1r2 == b1b2) { - /* The first two word digits is the same */ - ind_b = 2; - ind_a = ind_c + 2; - while(ind_b < word_b) { - if(r->frac[ind_a] < b->frac[ind_b]) goto div_b1p1; - if(r->frac[ind_a] > b->frac[ind_b]) break; - ++ind_a; - ++ind_b; - } - /* The first few word digits of r and b is the same and */ - /* the first different word digit of w is greater than that */ - /* of b, so quotinet is 1 and just subtract b from r. */ - borrow = 0; /* quotient=1, then just r-b */ - ind_b = b->Prec - 1; - ind_r = ind_c + ind_b; - if(ind_r >= word_r) goto space_error; - n = ind_b; - for(i = 0; i <= n; ++i) { - if(r->frac[ind_r] < b->frac[ind_b] + borrow) { - r->frac[ind_r] +=(BASE -(b->frac[ind_b] + borrow)); - borrow = 1; - } else { - r->frac[ind_r] = r->frac[ind_r] - b->frac[ind_b] - borrow; - borrow = 0; - } - --ind_r; - --ind_b; - } - ++(c->frac[ind_c]); - goto carry; - } - /* The first two word digits is not the same, */ - /* then compare magnitude, and divide actually. */ - if(r1r2 >= b1b2p1) { - q = r1r2 / b1b2p1; - c->frac[ind_c] += q; - ind_r = b->Prec + ind_c - 1; - goto sub_mult; - } - -div_b1p1: - if(ind_c + 1 >= word_c) goto out_side; - q = r1r2 / b1p1; - c->frac[ind_c + 1] += q; - ind_r = b->Prec + ind_c; - -sub_mult: - borrow1 = borrow2 = 0; - ind_b = word_b - 1; - if(ind_r >= word_r) goto space_error; - n = ind_b; - for(i = 0; i <= n; ++i) { - /* now, perform r = r - q * b */ - qb = q *(b->frac[ind_b]); - if(qb < BASE) borrow1 = 0; - else { - borrow1 = qb / BASE; - qb = qb - borrow1 * BASE; - } - if(r->frac[ind_r] < qb) { - r->frac[ind_r] +=(BASE - qb); - borrow2 = borrow2 + borrow1 + 1; - } else { - r->frac[ind_r] -= qb; - borrow2 += borrow1; - } - if(borrow2) { - if(r->frac[ind_r - 1] < borrow2) { - r->frac[ind_r - 1] +=(BASE - borrow2); - borrow2 = 1; - } else { - r->frac[ind_r - 1] -= borrow2; - borrow2 = 0; - } - } - --ind_r; - --ind_b; - } - - r->frac[ind_r] -= borrow2; -carry: - ind_r = ind_c; - while(c->frac[ind_r] >= BASE) { - c->frac[ind_r] -= BASE; - --ind_r; - ++(c->frac[ind_r]); - } - } - /* End of operation, now final arrangement */ -out_side: - c->Prec = word_c; - c->exponent = a->exponent; - if(!AddExponent(c,(S_LONG)2)) return 0; - if(!AddExponent(c,-(b->exponent))) return 0; - - VpSetSign(c,VpGetSign(a)*VpGetSign(b)); - VpNmlz(c); /* normalize c */ - r->Prec = word_r; - r->exponent = a->exponent; - if(!AddExponent(r,(S_LONG)1)) return 0; - VpSetSign(r,VpGetSign(a)); - VpNmlz(r); /* normalize r(remainder) */ - goto Exit; - -space_error: -#ifdef _DEBUG - if(gfDebug) { - printf(" word_a=%lu\n", word_a); - printf(" word_b=%lu\n", word_b); - printf(" word_c=%lu\n", word_c); - printf(" word_r=%lu\n", word_r); - printf(" ind_r =%lu\n", ind_r); - } -#endif /* _DEBUG */ - rb_bug("ERROR(VpDivd): space for remainder too small."); - -Exit: -#ifdef _DEBUG - if(gfDebug) { - VPrint(stdout, " VpDivd(c=a/b), c=% \n", c); - VPrint(stdout, " r=% \n", r); - } -#endif /* _DEBUG */ - return c->Prec*BASE_FIG; -} - -/* - * Input a = 00000xxxxxxxx En(5 preceeding zeros) - * Output a = xxxxxxxx En-5 - */ -static int -VpNmlz(Real *a) -{ - U_LONG ind_a, i; - - if(!VpIsDef(a)) goto NoVal; - if(VpIsZero(a)) goto NoVal; - - ind_a = a->Prec; - while(ind_a--) { - if(a->frac[ind_a]) { - a->Prec = ind_a + 1; - i = 0; - while(a->frac[i] == 0) ++i; /* skip the first few zeros */ - if(i) { - a->Prec -= i; - if(!AddExponent(a,-((S_INT)i))) return 0; - memmove(&(a->frac[0]),&(a->frac[i]),(a->Prec)*sizeof(U_LONG)); - } - return 1; - } - } - /* a is zero(no non-zero digit) */ - VpSetZero(a,VpGetSign(a)); - return 0; - -NoVal: - a->frac[0] = 0; - a->Prec=1; - return 0; -} - -/* - * VpComp = 0 ... if a=b, - * Pos ... a>b, - * Neg ... asign - b->sign; - else e = a->sign; - if(e>0) return 1; - else if(e<0) return -1; - else return 0; - } - if(!VpIsDef(b)) { - e = -b->sign; - if(e>0) return 1; - else return -1; - } - /* Zero check */ - if(VpIsZero(a)) { - if(VpIsZero(b)) return 0; /* both zero */ - val = -VpGetSign(b); - goto Exit; - } - if(VpIsZero(b)) { - val = VpGetSign(a); - goto Exit; - } - - /* compare sign */ - if(VpGetSign(a) > VpGetSign(b)) { - val = 1; /* a>b */ - goto Exit; - } - if(VpGetSign(a) < VpGetSign(b)) { - val = -1; /* aexponent) >(b->exponent)) { - val = VpGetSign(a); - goto Exit; - } - if((a->exponent) <(b->exponent)) { - val = -VpGetSign(b); - goto Exit; - } - - /* a and b have same exponent, then compare significand. */ - mx =((a->Prec) <(b->Prec)) ?(a->Prec) :(b->Prec); - ind = 0; - while(ind < mx) { - if((a->frac[ind]) >(b->frac[ind])) { - val = VpGetSign(a); - goto Exit; - } - if((a->frac[ind]) <(b->frac[ind])) { - val = -VpGetSign(b); - goto Exit; - } - ++ind; - } - if((a->Prec) >(b->Prec)) { - val = VpGetSign(a); - } else if((a->Prec) <(b->Prec)) { - val = -VpGetSign(b); - } - -Exit: - if (val> 1) val = 1; - else if(val<-1) val = -1; - -#ifdef _DEBUG - if(gfDebug) { - VPrint(stdout, " VpComp a=%\n", a); - VPrint(stdout, " b=%\n", b); - printf(" ans=%d\n", val); - } -#endif /* _DEBUG */ - return (int)val; -} - -#ifdef _DEBUG -/* - * cntl_chr ... ASCIIZ Character, print control characters - * Available control codes: - * % ... VP variable. To print '%', use '%%'. - * \n ... new line - * \b ... backspace - * ... tab - * Note: % must must not appear more than once - * a ... VP variable to be printed - */ -VP_EXPORT int -VPrint(FILE *fp, char *cntl_chr, Real *a) -{ - U_LONG i, j, nc, nd, ZeroSup; - U_LONG n, m, e, nn; - - /* Check if NaN & Inf. */ - if(VpIsNaN(a)) { - fprintf(fp,SZ_NaN); - return 8; - } - if(VpIsPosInf(a)) { - fprintf(fp,SZ_INF); - return 8; - } - if(VpIsNegInf(a)) { - fprintf(fp,SZ_NINF); - return 9; - } - if(VpIsZero(a)) { - fprintf(fp,"0.0"); - return 3; - } - - j = 0; - nd = nc = 0; /* nd : number of digits in fraction part(every 10 digits, */ - /* nd<=10). */ - /* nc : number of caracters printed */ - ZeroSup = 1; /* Flag not to print the leading zeros as 0.00xxxxEnn */ - while(*(cntl_chr + j)) { - if((*(cntl_chr + j) == '%') &&(*(cntl_chr + j + 1) != '%')) { - nc = 0; - if(!VpIsZero(a)) { - if(VpGetSign(a) < 0) { - fprintf(fp, "-"); - ++nc; - } - nc += fprintf(fp, "0."); - n = a->Prec; - for(i=0;i < n;++i) { - m = BASE1; - e = a->frac[i]; - while(m) { - nn = e / m; - if((!ZeroSup) || nn) { - nc += fprintf(fp, "%lu", nn); /* The reading zero(s) */ - /* as 0.00xx will not */ - /* be printed. */ - ++nd; - ZeroSup = 0; /* Set to print succeeding zeros */ - } - if(nd >= 10) { /* print ' ' after every 10 digits */ - nd = 0; - nc += fprintf(fp, " "); - } - e = e - nn * m; - m /= 10; - } - } - nc += fprintf(fp, "E%ld", VpExponent10(a)); - } else { - nc += fprintf(fp, "0.0"); - } - } else { - ++nc; - if(*(cntl_chr + j) == '\\') { - switch(*(cntl_chr + j + 1)) { - case 'n': - fprintf(fp, "\n"); - ++j; - break; - case 't': - fprintf(fp, "\t"); - ++j; - break; - case 'b': - fprintf(fp, "\n"); - ++j; - break; - default: - fprintf(fp, "%c", *(cntl_chr + j)); - break; - } - } else { - fprintf(fp, "%c", *(cntl_chr + j)); - if(*(cntl_chr + j) == '%') ++j; - } - } - j++; - } - return (int)nc; -} -#endif /* _DEBUG */ - -static void -VpFormatSt(char *psz,S_INT fFmt) -{ - U_LONG ie; - U_LONG i; - S_INT nf = 0; - char ch; - - if(fFmt<=0) return; - - ie = strlen(psz); - for(i = 0; i < ie; ++i) { - ch = psz[i]; - if(!ch) break; - if(ISSPACE(ch) || ch=='-' || ch=='+') continue; - if(ch == '.') { nf = 0;continue;} - if(ch == 'E') break; - nf++; - if(nf > fFmt) { - memmove(psz + i + 1, psz + i, ie - i + 1); - ++ie; - nf = 0; - psz[i] = ' '; - } - } -} - -VP_EXPORT S_LONG -VpExponent10(Real *a) -{ - S_LONG ex; - U_LONG n; - - if(!VpHasVal(a)) return 0; - - ex =(a->exponent) * BASE_FIG; - n = BASE1; - while((a->frac[0] / n) == 0) { - --ex; - n /= 10; - } - return ex; -} - -VP_EXPORT void -VpSzMantissa(Real *a,char *psz) -{ - U_LONG i, ZeroSup; - U_LONG n, m, e, nn; - - if(VpIsNaN(a)) { - sprintf(psz,SZ_NaN); - return; - } - if(VpIsPosInf(a)) { - sprintf(psz,SZ_INF); - return; - } - if(VpIsNegInf(a)) { - sprintf(psz,SZ_NINF); - return; - } - - ZeroSup = 1; /* Flag not to print the leading zeros as 0.00xxxxEnn */ - if(!VpIsZero(a)) { - if(VpGetSign(a) < 0) *psz++ = '-'; - n = a->Prec; - for(i=0;i < n;++i) { - m = BASE1; - e = a->frac[i]; - while(m) { - nn = e / m; - if((!ZeroSup) || nn) { - sprintf(psz, "%lu", nn); /* The reading zero(s) */ - psz += strlen(psz); - /* as 0.00xx will be ignored. */ - ZeroSup = 0; /* Set to print succeeding zeros */ - } - e = e - nn * m; - m /= 10; - } - } - *psz = 0; - while(psz[-1]=='0') *(--psz) = 0; - } else { - if(VpIsPosZero(a)) sprintf(psz, "0"); - else sprintf(psz, "-0"); - } -} - -VP_EXPORT int -VpToSpecialString(Real *a,char *psz,int fPlus) -/* fPlus =0:default, =1: set ' ' before digits , =2: set '+' before digits. */ -{ - if(VpIsNaN(a)) { - sprintf(psz,SZ_NaN); - return 1; - } - - if(VpIsPosInf(a)) { - if(fPlus==1) { - *psz++ = ' '; - } else if(fPlus==2) { - *psz++ = '+'; - } - sprintf(psz,SZ_INF); - return 1; - } - if(VpIsNegInf(a)) { - sprintf(psz,SZ_NINF); - return 1; - } - if(VpIsZero(a)) { - if(VpIsPosZero(a)) { - if(fPlus==1) sprintf(psz, " 0.0"); - else if(fPlus==2) sprintf(psz, "+0.0"); - else sprintf(psz, "0.0"); - } else sprintf(psz, "-0.0"); - return 1; - } - return 0; -} - -VP_EXPORT void -VpToString(Real *a,char *psz,int fFmt,int fPlus) -/* fPlus =0:default, =1: set ' ' before digits , =2:set '+' before digits. */ -{ - U_LONG i, ZeroSup; - U_LONG n, m, e, nn; - char *pszSav = psz; - S_LONG ex; - - if(VpToSpecialString(a,psz,fPlus)) return; - - ZeroSup = 1; /* Flag not to print the leading zeros as 0.00xxxxEnn */ - - if(VpGetSign(a) < 0) *psz++ = '-'; - else if(fPlus==1) *psz++ = ' '; - else if(fPlus==2) *psz++ = '+'; - - *psz++ = '0'; - *psz++ = '.'; - n = a->Prec; - for(i=0;i < n;++i) { - m = BASE1; - e = a->frac[i]; - while(m) { - nn = e / m; - if((!ZeroSup) || nn) { - sprintf(psz, "%lu", nn); /* The reading zero(s) */ - psz += strlen(psz); - /* as 0.00xx will be ignored. */ - ZeroSup = 0; /* Set to print succeeding zeros */ - } - e = e - nn * m; - m /= 10; - } - } - ex =(a->exponent) * BASE_FIG; - n = BASE1; - while((a->frac[0] / n) == 0) { - --ex; - n /= 10; - } - while(psz[-1]=='0') *(--psz) = 0; - sprintf(psz, "E%ld", ex); - if(fFmt) VpFormatSt(pszSav, fFmt); -} - -VP_EXPORT void -VpToFString(Real *a,char *psz,int fFmt,int fPlus) -/* fPlus =0:default,=1: set ' ' before digits ,set '+' before digits. */ -{ - U_LONG i; - U_LONG n, m, e, nn; - char *pszSav = psz; - S_LONG ex; - - if(VpToSpecialString(a,psz,fPlus)) return; - - if(VpGetSign(a) < 0) *psz++ = '-'; - else if(fPlus==1) *psz++ = ' '; - else if(fPlus==2) *psz++ = '+'; - - n = a->Prec; - ex = a->exponent; - if(ex<=0) { - *psz++ = '0';*psz++ = '.'; - while(ex<0) { - for(i=0;i= 0) { - sprintf(psz, "%lu", a->frac[i]); - psz += strlen(psz); - } else { - m = BASE1; - e = a->frac[i]; - while(m) { - nn = e / m; - *psz++ = (char)(nn + '0'); - e = e - nn * m; - m /= 10; - } - } - if(ex == 0) *psz++ = '.'; - } - while(--ex>=0) { - m = BASE; - while(m/=10) *psz++ = '0'; - if(ex == 0) *psz++ = '.'; - } - *psz = 0; - while(psz[-1]=='0') *(--psz) = 0; - if(psz[-1]=='.') sprintf(psz, "0"); - if(fFmt) VpFormatSt(pszSav, fFmt); -} - -/* - * [Output] - * a[] ... variable to be assigned the value. - * [Input] - * int_chr[] ... integer part(may include '+/-'). - * ni ... number of characters in int_chr[],not including '+/-'. - * frac[] ... fraction part. - * nf ... number of characters in frac[]. - * exp_chr[] ... exponent part(including '+/-'). - * ne ... number of characters in exp_chr[],not including '+/-'. - */ -VP_EXPORT int -VpCtoV(Real *a, char *int_chr, U_LONG ni, char *frac, U_LONG nf, char *exp_chr, U_LONG ne) -{ - U_LONG i, j, ind_a, ma, mi, me; - U_LONG loc; - S_INT e,es, eb, ef; - S_INT sign, signe; - /* get exponent part */ - e = 0; - ma = a->MaxPrec; - mi = ni; - me = ne; - signe = 1; - memset(a->frac, 0, ma * sizeof(U_LONG)); - if(ne > 0) { - i = 0; - if(exp_chr[0] == '-') { - signe = -1; - ++i; - ++me; - } else if(exp_chr[0] == '+') { - ++i; - ++me; - } - while(i < me) { - es = e*((S_INT)BASE_FIG); - e = e * 10 + exp_chr[i] - '0'; - if(es>e*((S_INT)BASE_FIG)) { - return VpException(VP_EXCEPTION_INFINITY,"Exponent overflow",0); - } - ++i; - } - } - - /* get integer part */ - i = 0; - sign = 1; - if(ni > 0) { - if(int_chr[0] == '-') { - sign = -1; - ++i; - ++mi; - } else if(int_chr[0] == '+') { - ++i; - ++mi; - } - } - - e = signe * e; /* e: The value of exponent part. */ - e = e + ni; /* set actual exponent size. */ - - if(e > 0) signe = 1; - else signe = -1; - - /* Adjust the exponent so that it is the multiple of BASE_FIG. */ - j = 0; - ef = 1; - while(ef) { - if(e>=0) eb = e; - else eb = -e; - ef = eb / ((S_INT)BASE_FIG); - ef = eb - ef * ((S_INT)BASE_FIG); - if(ef) { - ++j; /* Means to add one more preceeding zero */ - ++e; - } - } - - eb = e / ((S_INT)BASE_FIG); - - ind_a = 0; - while(i < mi) { - a->frac[ind_a] = 0; - while((j < (U_LONG)BASE_FIG) &&(i < mi)) { - a->frac[ind_a] = a->frac[ind_a] * 10 + int_chr[i] - '0'; - ++j; - ++i; - } - if(i < mi) { - ++ind_a; - if(ind_a >= ma) goto over_flow; - j = 0; - } - } - loc = 1; - - /* get fraction part */ - - i = 0; - while(i < nf) { - while((j < (U_LONG)BASE_FIG) &&(i < nf)) { - a->frac[ind_a] = a->frac[ind_a] * 10 + frac[i] - '0'; - ++j; - ++i; - } - if(i < nf) { - ++ind_a; - if(ind_a >= ma) goto over_flow; - j = 0; - } - } - goto Final; - -over_flow: - rb_warn("Conversion from String to BigDecimal overflow (last few digits discarded)."); - -Final: - if(ind_a >= ma) ind_a = ma - 1; - while(j < (U_LONG)BASE_FIG) { - a->frac[ind_a] = a->frac[ind_a] * 10; - ++j; - } - a->Prec = ind_a + 1; - a->exponent = eb; - VpSetSign(a,sign); - VpNmlz(a); - return 1; -} - -/* - * [Input] - * *m ... Real - * [Output] - * *d ... fraction part of m(d = 0.xxxxxxx). where # of 'x's is fig. - * *e ... U_LONG,exponent of m. - * DBLE_FIG ... Number of digits in a double variable. - * - * m -> d*10**e, 0Prec)); - *d = 0.0; - div = 1.; - while(ind_m < mm) { - div /=(double)((S_INT)BASE); - *d = *d +((double) ((S_INT)m->frac[ind_m++])) * div; - } - *e = m->exponent * ((S_INT)BASE_FIG); - *d *= VpGetSign(m); - -Exit: -#ifdef _DEBUG - if(gfDebug) { - VPrint(stdout, " VpVtoD: m=%\n", m); - printf(" d=%e * 10 **%ld\n", *d, *e); - printf(" DBLE_FIG = %ld\n", DBLE_FIG); - } -#endif /*_DEBUG */ - return f; -} - -/* - * m <- d - */ -VP_EXPORT void -VpDtoV(Real *m, double d) -{ - U_LONG i, ind_m, mm; - U_LONG ne; - double val, val2; - - if(isnan(d)) { - VpSetNaN(m); - goto Exit; - } - if(isinf(d)) { - if(d>0.0) VpSetPosInf(m); - else VpSetNegInf(m); - goto Exit; - } - - if(d == 0.0) { - VpSetZero(m,1); - goto Exit; - } - val =(d > 0.) ? d :(-d); - ne = 0; - if(val >= 1.0) { - while(val >= 1.0) { - val /=(double)((S_INT)BASE); - ++ne; - } - } else { - val2 = 1.0 /(double)((S_INT)BASE); - while(val < val2) { - val *=(double)((S_INT)BASE); - --ne; - } - } - /* Now val = 0.xxxxx*BASE**ne */ - - mm = m->MaxPrec; - memset(m->frac, 0, mm * sizeof(U_LONG)); - for(ind_m = 0;val > 0.0 && ind_m < mm;ind_m++) { - val *=(double)((S_INT)BASE); - i =(U_LONG) val; - val -=(double)((S_INT)i); - m->frac[ind_m] = i; - } - if(ind_m >= mm) ind_m = mm - 1; - if(d > 0.0) { - VpSetSign(m, (S_INT)1); - } else { - VpSetSign(m,-(S_INT)1); - } - m->Prec = ind_m + 1; - m->exponent = ne; - - VpInternalRound(m,0,(m->Prec>0)?m->frac[m->Prec-1]:0, - (U_LONG)(val*((double)((S_INT)BASE)))); - -Exit: -#ifdef _DEBUG - if(gfDebug) { - printf("VpDtoV d=%30.30e\n", d); - VPrint(stdout, " m=%\n", m); - } -#endif /* _DEBUG */ - return; -} - -/* - * m <- ival - */ -VP_EXPORT void -VpItoV(Real *m, S_INT ival) -{ - U_LONG mm, ind_m; - U_LONG val, v1, v2, v; - int isign; - S_INT ne; - - if(ival == 0) { - VpSetZero(m,1); - goto Exit; - } - isign = 1; - val = ival; - if(ival < 0) { - isign = -1; - val =(U_LONG)(-ival); - } - ne = 0; - ind_m = 0; - mm = m->MaxPrec; - while(ind_m < mm) { - m->frac[ind_m] = 0; - ++ind_m; - } - ind_m = 0; - while(val > 0) { - if(val) { - v1 = val; - v2 = 1; - while(v1 >= BASE) { - v1 /= BASE; - v2 *= BASE; - } - val = val - v2 * v1; - v = v1; - } else { - v = 0; - } - m->frac[ind_m] = v; - ++ind_m; - ++ne; - } - m->Prec = ind_m - 1; - m->exponent = ne; - VpSetSign(m,isign); - VpNmlz(m); - -Exit: -#ifdef _DEBUG - if(gfDebug) { - printf(" VpItoV i=%d\n", ival); - VPrint(stdout, " m=%\n", m); - } -#endif /* _DEBUG */ - return; -} - -/* - * y = SQRT(x), y*y - x =>0 - */ -VP_EXPORT int -VpSqrt(Real *y, Real *x) -{ - Real *f = NULL; - Real *r = NULL; - S_LONG y_prec, f_prec; - S_LONG n; - S_LONG e; - S_LONG prec; - S_LONG nr; - double val; - - /* Zero, NaN or Infinity ? */ - if(!VpHasVal(x)) { - if(VpIsZero(x)||VpGetSign(x)>0) { - VpAsgn(y,x,1); - goto Exit; - } - VpSetNaN(y); - return VpException(VP_EXCEPTION_OP,"(VpSqrt) SQRT(NaN or negative value)",0); - goto Exit; - } - - /* Negative ? */ - if(VpGetSign(x) < 0) { - VpSetNaN(y); - return VpException(VP_EXCEPTION_OP,"(VpSqrt) SQRT(negative value)",0); - } - - /* One ? */ - if(VpIsOne(x)) { - VpSetOne(y); - goto Exit; - } - - n = (S_LONG)y->MaxPrec; - if((S_LONG)x->MaxPrec > n) n = (S_LONG)x->MaxPrec; - /* allocate temporally variables */ - f = VpAlloc(y->MaxPrec *(BASE_FIG + 2), "#1"); - r = VpAlloc((n + n) *(BASE_FIG + 2), "#1"); - - nr = 0; - y_prec = (S_LONG)y->MaxPrec; - f_prec = (S_LONG)f->MaxPrec; - - prec = x->exponent; - if(prec > 0) ++prec; - else --prec; - prec = prec - (S_LONG)y->MaxPrec; - VpVtoD(&val, &e, x); /* val <- x */ - e /= ((S_LONG)BASE_FIG); - n = e / 2; - if(e - n * 2 != 0) { - val /=(double)((S_INT)BASE); - n =(e + 1) / 2; - } - VpDtoV(y, sqrt(val)); /* y <- sqrt(val) */ - y->exponent += n; - n = (DBLE_FIG + BASE_FIG - 1) / BASE_FIG; - y->MaxPrec = (U_LONG)Min(n , y_prec); - f->MaxPrec = y->MaxPrec + 1; - n = y_prec*((S_LONG)BASE_FIG); - if((U_LONG)nMaxPrec *= 2; - if(y->MaxPrec > (U_LONG)y_prec) y->MaxPrec = (U_LONG)y_prec; - f->MaxPrec = y->MaxPrec; - VpDivd(f, r, x, y); /* f = x/y */ - VpAddSub(r, f, y, -1); /* r = f - y */ - VpMult(f, VpPt5, r); /* f = 0.5*r */ - if(VpIsZero(f)) goto converge; - VpAddSub(r, f, y, 1); /* r = y + f */ - VpAsgn(y, r, 1); /* y = r */ - if(f->exponent <= prec) goto converge; - } while(++nr < n); - /* */ -#ifdef _DEBUG - if(gfDebug) { - printf("ERROR(VpSqrt): did not converge within %ld iterations.\n", - nr); - } -#endif /* _DEBUG */ - y->MaxPrec = y_prec; - -converge: - VpChangeSign(y,(S_INT)1); -#ifdef _DEBUG - if(gfDebug) { - VpMult(r, y, y); - VpAddSub(f, x, r, -1); - printf("VpSqrt: iterations = %lu\n", nr); - VPrint(stdout, " y =% \n", y); - VPrint(stdout, " x =% \n", x); - VPrint(stdout, " x-y*y = % \n", f); - } -#endif /* _DEBUG */ - y->MaxPrec = y_prec; - -Exit: - VpFree(f); - VpFree(r); - return 1; -} - -/* - * - * f = 0: Round off/Truncate, 1: round up, 2:ceil, 3: floor, 4: Banker's rounding - * nf: digit position for operation. - * - */ -VP_EXPORT int -VpMidRound(Real *y, int f, int nf) -/* - * Round reletively from the decimal point. - * f: rounding mode - * nf: digit location to round from the the decimal point. - */ -{ - int n,i,ix,ioffset; - U_LONG v; - U_LONG div; - - nf += y->exponent*((int)BASE_FIG); - /* ix: x->fraq[ix] contains round position */ - ix = nf/(int)BASE_FIG; - if(ix<0 || ((U_LONG)ix)>=y->Prec) return 0; /* Unable to round */ - ioffset = nf - ix*((int)BASE_FIG); - - memset(y->frac+ix+1, 0, (y->Prec - (ix+1)) * sizeof(U_LONG)); - v = y->frac[ix]; - /* drop digits after pointed digit */ - n = BASE_FIG - ioffset - 1; - for(i=0;i=5) ++div; - break; - case VP_ROUND_HALF_DOWN: /* Round half down */ - if(v>=6) ++div; - break; - case VP_ROUND_CEIL: /* ceil */ - if(v && (VpGetSign(y)>0)) ++div; - break; - case VP_ROUND_FLOOR: /* floor */ - if(v && (VpGetSign(y)<0)) ++div; - break; - case VP_ROUND_HALF_EVEN: /* Banker's rounding */ - if(v>5) ++div; - else if(v==5) { - if((U_LONG)i==(BASE_FIG-1)) { - if(ix && (y->frac[ix-1]%2)) ++div; - } else { - if(div%2) ++div; - } - } - break; - } - for(i=0;i<=n;++i) div *= 10; - if(div>=BASE) { - y->frac[ix] = 0; - if(ix) { - VpNmlz(y); - VpRdup(y,0); - } else { - S_INT s = VpGetSign(y); - VpSetOne(y); - VpSetSign(y,s); - } - } else { - y->frac[ix] = div; - VpNmlz(y); - } - return 1; -} - -VP_EXPORT int -VpLeftRound(Real *y, int f, int nf) -/* - * Round from the left hand side of the digits. - */ -{ - U_LONG v; - if(!VpHasVal(y)) return 0; /* Unable to round */ - v = y->frac[0]; - nf -= VpExponent(y)*BASE_FIG; - while(v=v/10) nf--; - nf += (BASE_FIG-1); - return VpMidRound(y,f,nf); -} - -VP_EXPORT int -VpActiveRound(Real *y, Real *x, int f, int nf) -{ - /* First,assign whole value in truncation mode */ - if(VpAsgn(y, x, 10)<=1) return 0; /* Zero,NaN,or Infinity */ - return VpMidRound(y,f,nf); -} - -static int -VpLimitRound(Real *c,U_LONG ixDigit) -{ - U_LONG ix = VpGetPrecLimit(); - if(!VpNmlz(c)) return -1; - if(!ix) return 0; - if(!ixDigit) ixDigit = c->Prec-1; - if((ix+BASE_FIG-1)/BASE_FIG > ixDigit+1) return 0; - return VpLeftRound(c,VpGetRoundMode(),ix); -} - -static void -VpInternalRound(Real *c,int ixDigit,U_LONG vPrev,U_LONG v) -{ - int f = 0; - - if(VpLimitRound(c,ixDigit)) return; - if(!v) return; - - v /= BASE1; - switch(gfRoundMode) { - case VP_ROUND_DOWN: - break; - case VP_ROUND_UP: - if(v) f = 1; - break; - case VP_ROUND_HALF_UP: - if(v >= 5) f = 1; - break; - case VP_ROUND_HALF_DOWN: - if(v >= 6) f = 1; - break; - case VP_ROUND_CEIL: /* ceil */ - if(v && (VpGetSign(c)>0)) f = 1; - break; - case VP_ROUND_FLOOR: /* floor */ - if(v && (VpGetSign(c)<0)) f = 1; - break; - case VP_ROUND_HALF_EVEN: /* Banker's rounding */ - if(v>5) f = 1; - else if(v==5 && vPrev%2) f = 1; - break; - } - if(f) { - VpRdup(c,ixDigit); /* round up */ - VpNmlz(c); - } -} - -/* - * Rounds up m(plus one to final digit of m). - */ -static int -VpRdup(Real *m,U_LONG ind_m) -{ - U_LONG carry; - - if(!ind_m) ind_m = m->Prec; - - carry = 1; - while(carry > 0 && (ind_m--)) { - m->frac[ind_m] += carry; - if(m->frac[ind_m] >= BASE) m->frac[ind_m] -= BASE; - else carry = 0; - } - if(carry > 0) { /* Overflow,count exponent and set fraction part be 1 */ - if(!AddExponent(m,(S_LONG)1)) return 0; - m->Prec = m->frac[0] = 1; - } else { - VpNmlz(m); - } - return 1; -} - -/* - * y = x - fix(x) - */ -VP_EXPORT void -VpFrac(Real *y, Real *x) -{ - U_LONG my, ind_y, ind_x; - - if(!VpHasVal(x)) { - VpAsgn(y,x,1); - goto Exit; - } - - if(x->exponent > 0 && (U_LONG)x->exponent >= x->Prec) { - VpSetZero(y,VpGetSign(x)); - goto Exit; - } else if(x->exponent <= 0) { - VpAsgn(y, x, 1); - goto Exit; - } - - y->Prec = x->Prec -(U_LONG) x->exponent; - y->Prec = Min(y->Prec, y->MaxPrec); - y->exponent = 0; - VpSetSign(y,VpGetSign(x)); - ind_y = 0; - my = y->Prec; - ind_x = x->exponent; - while(ind_y < my) { - y->frac[ind_y] = x->frac[ind_x]; - ++ind_y; - ++ind_x; - } - VpNmlz(y); - -Exit: -#ifdef _DEBUG - if(gfDebug) { - VPrint(stdout, "VpFrac y=%\n", y); - VPrint(stdout, " x=%\n", x); - } -#endif /* _DEBUG */ - return; -} - -/* - * y = x ** n - */ -VP_EXPORT int -VpPower(Real *y, Real *x, S_INT n) -{ - U_LONG s, ss; - S_LONG sign; - Real *w1 = NULL; - Real *w2 = NULL; - - if(VpIsZero(x)) { - if(n==0) { - VpSetOne(y); - goto Exit; - } - sign = VpGetSign(x); - if(n<0) { - n = -n; - if(sign<0) sign = (n%2)?(-1):(1); - VpSetInf (y,sign); - } else { - if(sign<0) sign = (n%2)?(-1):(1); - VpSetZero(y,sign); - } - goto Exit; - } - if(!VpIsDef(x)) { - VpSetNaN(y); /* Not sure !!! */ - goto Exit; - } - - if((x->exponent == 1) &&(x->Prec == 1) &&(x->frac[0] == 1)) { - /* abs(x) = 1 */ - VpSetOne(y); - if(VpGetSign(x) > 0) goto Exit; - if((n % 2) == 0) goto Exit; - VpSetSign(y,-(S_INT)1); - goto Exit; - } - - if(n > 0) sign = 1; - else if(n < 0) { - sign = -1; - n = -n; - } else { - VpSetOne(y); - goto Exit; - } - - /* Allocate working variables */ - - w1 = VpAlloc((y->MaxPrec + 2) * BASE_FIG, "#0"); - w2 = VpAlloc((w1->MaxPrec * 2 + 1) * BASE_FIG, "#0"); - /* calculation start */ - - VpAsgn(y, x, 1); - --n; - while(n > 0) { - VpAsgn(w1, x, 1); - s = 1; -loop1: ss = s; - s += s; - if(s >(U_LONG) n) goto out_loop1; - VpMult(w2, w1, w1); - VpAsgn(w1, w2, 1); - goto loop1; -out_loop1: - n -= ss; - VpMult(w2, y, w1); - VpAsgn(y, w2, 1); - } - if(sign < 0) { - VpDivd(w1, w2, VpConstOne, y); - VpAsgn(y, w1, 1); - } - -Exit: -#ifdef _DEBUG - if(gfDebug) { - VPrint(stdout, "VpPower y=%\n", y); - VPrint(stdout, "VpPower x=%\n", x); - printf(" n=%d\n", n); - } -#endif /* _DEBUG */ - VpFree(w2); - VpFree(w1); - return 1; -} - -#ifdef _DEBUG -int -VpVarCheck(Real * v) -/* - * Checks the validity of the Real variable v. - * [Input] - * v ... Real *, variable to be checked. - * [Returns] - * 0 ... correct v. - * other ... error - */ -{ - U_LONG i; - - if(v->MaxPrec <= 0) { - printf("ERROR(VpVarCheck): Illegal Max. Precision(=%lu)\n", - v->MaxPrec); - return 1; - } - if((v->Prec <= 0) ||((v->Prec) >(v->MaxPrec))) { - printf("ERROR(VpVarCheck): Illegal Precision(=%lu)\n", v->Prec); - printf(" Max. Prec.=%lu\n", v->MaxPrec); - return 2; - } - for(i = 0; i < v->Prec; ++i) { - if((v->frac[i] >= BASE)) { - printf("ERROR(VpVarCheck): Illegal fraction\n"); - printf(" Frac[%ld]=%lu\n", i, v->frac[i]); - printf(" Prec. =%lu\n", v->Prec); - printf(" Exp. =%d\n", v->exponent); - printf(" BASE =%lu\n", BASE); - return 3; - } - } - return 0; -} -#endif /* _DEBUG */ -- cgit v1.2.3