From e4071b93db0e2fd4aa3b678a6188da2de1c8eb2f Mon Sep 17 00:00:00 2001 From: Eric Andersen Date: Thu, 9 May 2002 04:43:18 +0000 Subject: Rework the math library tests per the glibc math test code, with many unsupported tests disabled for the moment. -Erik --- test/math/eparanoi.c | 3550 -------------------------------------------------- 1 file changed, 3550 deletions(-) delete mode 100644 test/math/eparanoi.c (limited to 'test/math/eparanoi.c') diff --git a/test/math/eparanoi.c b/test/math/eparanoi.c deleted file mode 100644 index 84cab73f8..000000000 --- a/test/math/eparanoi.c +++ /dev/null @@ -1,3550 +0,0 @@ -/* paranoia.c arithmetic tester - * - * This is an implementation of the PARANOIA program. It substitutes - * subroutine calls for ALL floating point arithmetic operations. - * This permits you to substitute your own experimental versions of - * arithmetic routines. It also defeats compiler optimizations, - * so for native arithmetic you can be pretty sure you are testing - * the arithmetic and not the compiler. - * - * This version of PARANOIA omits the display of division by zero. - * It also omits the test for extra precise subexpressions, since - * they cannot occur in this context. Otherwise it includes all the - * tests of the 27 Jan 86 distribution, plus a few additional tests. - * Commentary has been reduced to a minimum in order to make the program - * smaller. - * - * The original PARANOIA program, written by W. Kahan, C version - * by Thos Sumner and David Gay, can be downloaded free from the - * Internet NETLIB. An MSDOS disk can be obtained for $15 from: - * Richard Karpinski - * 6521 Raymond Street - * Oakland, CA 94609 - * - * Steve Moshier, 28 Oct 88 - * last rev: 23 May 92 - */ - -#define DEBUG 0 - -/* To use the native arithmetic of the computer, define NATIVE - * to be 1. To use your own supplied arithmetic routines, NATIVE is 0. - */ -#define NATIVE 0 - -/* gcc real.c interface */ -#define L128DOUBLE 0 - -#include - - - - -/* Data structure of floating point number. If NATIVE was - * selected above, you can define LDOUBLE 1 to test 80-bit long double - * precision or define it 0 to test 64-bit double precision. -*/ -#define LDOUBLE 0 -#if NATIVE - -#define NE 1 -#if LDOUBLE -#define FSIZE long double -#define FLOAT(x) FSIZE x[NE] -static FSIZE eone[NE] = {1.0L}; /* The constant 1.0 */ -#define ZSQRT sqrtl -#define ZLOG logl -#define ZFLOOR floorl -#define ZPOW powl -long double sqrtl(), logl(), floorl(), powl(); -#define FSETUP einit -#else /* not LDOUBLE */ -#define FSIZE double -#define FLOAT(x) FSIZE x[NE] -static FSIZE eone[NE] = {1.0}; /* The constant 1.0 */ -#define ZSQRT sqrt -#define ZLOG log -#define ZFLOOR floor -#define ZPOW pow -double sqrt(), log(), floor(), pow(); -/* Coprocessor initialization, - * defeat underflow trap or what have you. - * This is required mainly on i386 and 68K processors. - */ -#define FSETUP dprec -#endif /* double, not LDOUBLE */ - -#else /* not NATIVE */ - -/* Setup for extended double type. - * Put NE = 10 for real.c operating with TFmode support (16-byte reals) - * Put NE = 6 for real.c operating with XFmode support (10- or 12-byte reals) - * The value of NE must agree with that in ehead.h, if ieee.c is used. - */ -#define NE 6 -#define FSIZE unsigned short -#define FLOAT(x) unsigned short x[NE] -extern unsigned short eone[]; -#define FSETUP einit - -/* default for FSETUP */ -/* -einit() -{} -*/ - -error(s) -char *s; -{ -printf( "error: %s\n", s ); -} - -#endif /* not NATIVE */ - - - -#if L128DOUBLE -/* real.c interface */ - -#undef FSETUP -#define FSETUP efsetup - -FLOAT(enone); - -#define ONE enone - -/* Use emov to convert from widest type to widest type, ... */ -/* -#define ENTOE emov -#define ETOEN emov -*/ - -/* ... else choose e24toe, e53toe, etc. */ -#define ENTOE e64toe -#define ETOEN etoe64 -#define NNBITS 64 - -#define NIBITS ((NE-1)*16) -extern int rndprc; - -efsetup() -{ -rndprc = NNBITS; -ETOEN(eone, enone); -} - -add(a,b,c) -FLOAT(a); -FLOAT(b); -FLOAT(c); -{ -unsigned short aa[10], bb[10], cc[10]; - -ENTOE(a,aa); -ENTOE(b,bb); -eadd(aa,bb,cc); -ETOEN(cc,c); -} - -sub(a,b,c) -FLOAT(a); -FLOAT(b); -FLOAT(c); -{ -unsigned short aa[10], bb[10], cc[10]; - -ENTOE(a,aa); -ENTOE(b,bb); -esub(aa,bb,cc); -ETOEN(cc,c); -} - -mul(a,b,c) -FLOAT(a); -FLOAT(b); -FLOAT(c); -{ -unsigned short aa[10], bb[10], cc[10]; - -ENTOE(a,aa); -ENTOE(b,bb); -emul(aa,bb,cc); -ETOEN(cc,c); -} - -div(a,b,c) -FLOAT(a); -FLOAT(b); -FLOAT(c); -{ -unsigned short aa[10], bb[10], cc[10]; - -ENTOE(a,aa); -ENTOE(b,bb); -ediv(aa,bb,cc); -ETOEN(cc,c); -} - -int cmp(a,b) -FLOAT(a); -FLOAT(b); -{ -unsigned short aa[10], bb[10]; -int c; -int ecmp(); - -ENTOE(a,aa); -ENTOE(b,bb); -c = ecmp(aa,bb); -return(c); -} - -mov(a,b) -FLOAT(a); -FLOAT(b); -{ -int i; - -for( i=0; ib, 0 if a==b, -1 if a (*b) ) - return( 1 ); -if( (*a) < (*b) ) - return( -1 ); -if( (*a) != (*b) ) - goto cmpf; -if( (*a) == (*b) ) - return( 0 ); -cmpf: -printf( "Compare fails\n" ); -return(0); -} - - -emov( a, b ) -FSIZE *a, *b; -{ -*b = *a; -} - -eneg( a ) -FSIZE *a; -{ -*a = -(*a); -} - -eclear(a) -FSIZE *a; -{ -*a = 0.0; -} - -eabs(x) -FSIZE *x; -{ -if( (*x) < 0.0 ) - *x = -(*x); -} - -efloor(x,y) -FSIZE *x, *y; -{ - -*y = (FSIZE )ZFLOOR( *x ); -} - -elog(x,y) -FSIZE *x, *y; -{ - -*y = (FSIZE )ZLOG( *x ); -} - -epow(x,y,z) -FSIZE *x, *y, *z; -{ - -*z = (FSIZE )ZPOW( *x, *y ); -} - -esqrt(x,y) -FSIZE *x, *y; -{ - -*y = (FSIZE )ZSQRT( *x ); -} - - -eifrac(x,i,f) -FSIZE *x; -long *i; -FSIZE *f; -{ -FSIZE y; - -y = (FSIZE )ZFLOOR( *x ); -if( y < 0.0 ) - { - *f = y - *x; - *i = -y; - } -else - { - *f = *x - y; - *i = y; - } -} - - -ltoe(i,x) -long *i; -FSIZE *x; -{ -*x = *i; -} - - -etoasc(a,str,n) -FSIZE *a; -char *str; -int n; -{ -double x; - -x = (double )(*a); -sprintf( str, " %.17e ", x ); -} - -/* default for FSETUP */ -einit() -{} - -#endif /* NATIVE */ - - - - -FLOAT(Radix); -FLOAT(BInvrse); -FLOAT(RadixD2); -FLOAT(BMinusU2); -/*Small floating point constants.*/ -FLOAT(Zero); -FLOAT(Half); -FLOAT(One); -FLOAT(Two); -FLOAT(Three); -FLOAT(Four); -FLOAT(Five); -FLOAT(Six); -FLOAT(Eight); -FLOAT(Nine); -FLOAT(Ten); -FLOAT(TwentySeven); -FLOAT(ThirtyTwo); -FLOAT(TwoForty); -FLOAT(MinusOne ); -FLOAT(OneAndHalf); - -/*Integer constants*/ -int NoTrials = 20; /*Number of tests for commutativity. */ -#define False 0 -#define True 1 - -/* Definitions for declared types - Guard == (Yes, No); - Rounding == (Chopped, Rounded, Other); - Message == packed array [1..40] of char; - Class == (Flaw, Defect, Serious, Failure); - */ -#define Yes 1 -#define No 0 -#define Chopped 2 -#define Rounded 1 -#define Other 0 -#define Flaw 3 -#define Defect 2 -#define Serious 1 -#define Failure 0 - -typedef int Guard, Rounding, Class; -typedef char Message; - -/* Declarations of Variables */ -FLOAT(AInvrse); -FLOAT(A1); -FLOAT(C); -FLOAT(CInvrse); -FLOAT(D); -FLOAT(FourD); -FLOAT(E0); -FLOAT(E1); -FLOAT(Exp2); -FLOAT(E3); -FLOAT(MinSqEr); -FLOAT(SqEr); -FLOAT(MaxSqEr); -FLOAT(E9); -FLOAT(Third); -FLOAT(F6); -FLOAT(F9); -FLOAT(H); -FLOAT(HInvrse); -FLOAT(StickyBit); -FLOAT(J); -FLOAT(MyZero); -FLOAT(Precision); -FLOAT(Q); -FLOAT(Q9); -FLOAT(R); -FLOAT(Random9); -FLOAT(T); -FLOAT(Underflow); -FLOAT(S); -FLOAT(OneUlp); -FLOAT(UfThold); -FLOAT(U1); -FLOAT(U2); -FLOAT(V); -FLOAT(V0); -FLOAT(V9); -FLOAT(W); -FLOAT(X); -FLOAT(X1); -FLOAT(X2); -FLOAT(X8); -FLOAT(Random1); -FLOAT(Y); -FLOAT(YY1); -FLOAT(Y2); -FLOAT(Random2); -FLOAT(Z); -FLOAT(PseudoZero); -FLOAT(Z1); -FLOAT(Z2); -FLOAT(Z9); -static FLOAT(t); -FLOAT(t2); -FLOAT(Sqarg); -int ErrCnt[4]; -int fpecount; -int Milestone; -int PageNo; -int I, M, N, N1, stkflg; -Guard GMult, GDiv, GAddSub; -Rounding RMult, RDiv, RAddSub, RSqrt; -int Break, Done, NotMonot, Monot, Anomaly, IEEE; -int SqRWrng, UfNGrad; -int k, k2; -int Indx; -char ch[8]; - -long lngint, lng2; /* intermediate for conversion between int and FLOAT */ - -/* Computed constants. */ -/*U1 gap below 1.0, i.e, 1.0-U1 is next number below 1.0 */ -/*U2 gap above 1.0, i.e, 1.0+U2 is next number above 1.0 */ - - -show( x ) -short x[]; -{ -int i; -char s[80]; - -/* Number of 16-bit groups to display */ -#if NATIVE -#if LDOUBLE -#define NPRT (sizeof( long double )/2) -#else -#define NPRT (sizeof( double )/2) -#endif -#else -#define NPRT NE -#endif - -TOASC( x, s, 70 ); -printf( "%s\n", s ); -for( i=0; i -#endif -#include -jmp_buf ovfl_buf; -/*typedef int (*Sig_type)();*/ -typedef void (*Sig_type)(); -Sig_type sigsave; - -/* Floating point exception receiver */ -void sigfpe() -{ -fpecount++; -printf( "\n* * * FLOATING-POINT ERROR * * *\n" ); -/* reinitialize the floating point unit */ -FSETUP(); -fflush(stdout); -if( sigsave ) - { -#ifndef NOSIGNAL - signal( SIGFPE, sigsave ); -#endif - sigsave = 0; - longjmp( ovfl_buf, 1 ); - } -abort(); -} - - -main() -{ - -/* Do coprocessor or other initializations */ -FSETUP(); - -printf( - "This version of paranoia omits test for extra precise subexpressions\n" ); -printf( "and includes a few additional tests.\n" ); - -clear(Zero); -printf( "0 = " ); -show( Zero ); -mov( ONE, One); -printf( "1 = " ); -show( One ); -add( One, One, Two ); -printf( "1+1 = " ); -show( Two ); -add( Two, One, Three ); -add( Three, One, Four ); -add( Four, One, Five ); -add( Five, One, Six ); -add( Four, Four, Eight ); -mul( Three, Three, Nine ); -add( Nine, One, Ten ); -mul( Nine, Three, TwentySeven ); -mul( Four, Eight, ThirtyTwo ); -mul( Four, Five, t ); -mul( t, Three, t ); -mul( t, Four, TwoForty ); -mov( One, MinusOne ); -neg( MinusOne ); -div( Two, One, Half ); -add( One, Half, OneAndHalf ); -ErrCnt[Failure] = 0; -ErrCnt[Serious] = 0; -ErrCnt[Defect] = 0; -ErrCnt[Flaw] = 0; -PageNo = 1; -#ifndef NOSIGNAL -signal( SIGFPE, sigfpe ); -#endif -printf("Program is now RUNNING tests on small integers:\n"); - -add( Zero, Zero, t ); -if( cmp( t, Zero ) != 0) - { - printf( "0+0 != 0\n" ); - ErrCnt[Failure] += 1; - } -sub( One, One, t ); -if( cmp( t, Zero ) != 0 ) - { - printf( "1-1 != 0\n" ); - ErrCnt[Failure] += 1; - } -if( cmp( One, Zero ) <= 0 ) - { - printf( "1 <= 0\n" ); - ErrCnt[Failure] += 1; - } -add( One, One, t ); -if( cmp( t, Two ) != 0 ) - { - printf( "1+1 != 2\n" ); - ErrCnt[Failure] += 1; - } -mov( Zero, Z ); -neg( Z ); -FLOOR( Z, t ); -if( cmp(t,Zero) != 0 ) - { - ErrCnt[Serious] += 1; - printf( "FLOOR(-0) should equal 0, is = " ); - show( t ); - } -if( cmp(Z, Zero) != 0) - { - ErrCnt[Failure] += 1; - printf("Comparison alleges that -0.0 is Non-zero!\n"); - } -else - { - div( TwoForty, One, U1 ); /* U1 = 0.001 */ - mov( One, Radix ); - TstPtUf(); - } -add( Two, One, t ); -if( cmp( t, Three ) != 0 ) - { - printf( "2+1 != 3\n" ); - ErrCnt[Failure] += 1; - } -add( Three, One, t ); -if( cmp( t, Four ) != 0 ) - { - printf( "3+1 != 4\n" ); - ErrCnt[Failure] += 1; - } -mov( Two, t ); -neg( t ); -mul( Two, t, t ); -add( Four, t, t ); -if( cmp( t, Zero ) != 0 ) - { - printf( "4+2*(-2) != 0\n" ); - ErrCnt[Failure] += 1; - } -sub( Three, Four, t ); -sub( One, t, t ); -if( cmp( t, Zero ) != 0 ) - { - printf( "4-3-1 != 0\n" ); - ErrCnt[Failure] += 1; - } - sub( One, Zero, t ); -if( cmp( t, MinusOne ) != 0 ) - { - printf( "-1 != 0-1\n" ); - ErrCnt[Failure] += 1; - } -add( One, MinusOne, t ); -if( cmp( t, Zero ) != 0 ) - { - printf( "1+(-1) != 0\n" ); - ErrCnt[Failure] += 1; - } -mov( One, t ); -FABS( t ); -add( MinusOne, t, t ); -if( cmp( t, Zero ) != 0 ) - { - printf( "-1+abs(1) != 0\n" ); - ErrCnt[Failure] += 1; - } -mul( MinusOne, MinusOne, t ); -add( MinusOne, t, t ); -if( cmp( t, Zero ) != 0 ) - { - printf( "-1+(-1)*(-1) != 0\n" ); - ErrCnt[Failure] += 1; - } -add( Half, MinusOne, t ); -add( Half, t, t ); -if( cmp( t, Zero ) != 0 ) - { - printf( "1/2 + (-1) + 1/2 != 0\n" ); - ErrCnt[Failure] += 1; - } -Milestone = 10; -mul( Three, Three, t ); -if( cmp( t, Nine ) != 0 ) - { - printf( "3*3 != 9\n" ); - ErrCnt[Failure] += 1; - } -mul( Nine, Three, t ); -if( cmp( t, TwentySeven ) != 0 ) - { - printf( "3*9 != 27\n" ); - ErrCnt[Failure] += 1; - } -add( Four, Four, t ); -if( cmp( t, Eight ) != 0 ) - { - printf( "4+4 != 8\n" ); - ErrCnt[Failure] += 1; - } -mul( Eight, Four, t ); -if( cmp( t, ThirtyTwo ) != 0 ) - { - printf( "8*4 != 32\n" ); - ErrCnt[Failure] += 1; - } -sub( TwentySeven, ThirtyTwo, t ); -sub( Four, t, t ); -sub( One, t, t ); -if( cmp( t, Zero ) != 0 ) - { - printf( "32-27-4-1 != 0\n" ); - ErrCnt[Failure] += 1; - } -add( Four, One, t ); -if( cmp( t, Five ) != 0 ) - { - printf( "4+1 != 5\n" ); - ErrCnt[Failure] += 1; - } -mul( Four, Five, t ); -mul( Three, t, t ); -mul( Four, t, t ); -if( cmp( t, TwoForty ) != 0 ) - { - printf( "4*5*3*4 != 240\n" ); - ErrCnt[Failure] += 1; - } -div( Three, TwoForty, t ); -mul( Four, Four, t2 ); -mul( Five, t2, t2 ); -sub( t2, t2, t ); -if( cmp( t, Zero ) != 0 ) - { - printf( "240/3 - 4*4*5 != 0\n" ); - ErrCnt[Failure] += 1; - } -div( Four, TwoForty, t ); -mul( Five, Three, t2 ); -mul( Four, t2, t2 ); -sub( t2, t, t ); -if( cmp( t, Zero ) != 0 ) - { - printf( "240/4 - 5*3*4 != 0\n" ); - ErrCnt[Failure] += 1; - } -div( Five, TwoForty, t ); -mul( Four, Three, t2 ); -mul( Four, t2, t2 ); -sub( t2, t, t ); -if( cmp( t, Zero ) != 0 ) - { - printf( "240/5 - 4*3*4 != 0\n" ); - ErrCnt[Failure] += 1; - } -if(ErrCnt[Failure] == 0) - { -printf("-1, 0, 1/2, 1, 2, 3, 4, 5, 9, 27, 32 & 240 are O.K.\n\n"); - } -printf("Searching for Radix and Precision.\n"); -mov( One, W ); -do - { - add( W, W, W ); - add( W, One, Y ); - sub( W, Y, Z ); - sub( One, Z, Y ); - mov( Y, t ); - FABS(t); - add( MinusOne, t, t ); - k = cmp( t, Zero ); - } -while( k < 0 ); -/*.. now W is just big enough that |((W+1)-W)-1| >= 1 ...*/ -mov( Zero, Precision ); -mov( One, Y ); -do - { - add( W, Y, Radix ); - add( Y, Y, Y ); - sub( W, Radix, Radix ); - k = cmp( Radix, Zero ); - } -while( k == 0); - -if( cmp(Radix, Two) < 0 ) - mov( One, Radix ); -printf("Radix = " ); -show( Radix ); -if( cmp(Radix, One) != 0) - { - mov( One, W ); - do - { - add( One, Precision, Precision ); - mul( W, Radix, W ); - add( W, One, Y ); - sub( W, Y, t ); - k = cmp( t, One ); - } - while( k == 0 ); - } -/* now W == Radix^Precision is barely too big to satisfy (W+1)-W == 1 */ -div( W, One, U1 ); -mul( Radix, U1, U2 ); -printf( "Closest relative separation found is U 1 = " ); -show( U1 ); -printf( "Recalculating radix and precision." ); - -/*save old values*/ -mov( Radix, E0 ); -mov( U1, E1 ); -mov( U2, E9 ); -mov( Precision, E3 ); - -div( Three, Four, X ); -sub( One, X, Third ); -sub( Third, Half, F6 ); -add( F6, F6, X ); -sub( Third, X, X ); -FABS( X ); -if( cmp(X, U2) < 0 ) - mov( U2, X ); - -/*... now X = (unknown no.) ulps of 1+...*/ -do - { - mov( X, U2 ); -/* Y = Half * U2 + ThirtyTwo * U2 * U2; */ - mul( ThirtyTwo, U2, t ); - mul( t, U2, t ); - mul( Half, U2, Y ); - add( t, Y, Y ); - add( One, Y, Y ); - sub( One, Y, X ); - k = cmp( U2, X ); - k2 = cmp( X, Zero ); - } -while ( ! ((k <= 0) || (k2 <= 0))); - -/*... now U2 == 1 ulp of 1 + ... */ -div( Three, Two, X ); -sub( Half, X, F6 ); -add( F6, F6, Third ); -sub( Half, Third, X ); -add( F6, X, X ); -FABS( X ); -if( cmp(X, U1) < 0 ) - mov( U1, X ); - -/*... now X == (unknown no.) ulps of 1 -... */ -do - { - mov( X, U1 ); - /* Y = Half * U1 + ThirtyTwo * U1 * U1;*/ - mul( ThirtyTwo, U1, t ); - mul( U1, t, t ); - mul( Half, U1, Y ); - add( t, Y, Y ); - sub( Y, Half, Y ); - add( Half, Y, X ); - sub( X, Half, Y ); - add( Half, Y, X ); - k = cmp( U1, X ); - k2 = cmp( X, Zero ); - } while ( ! ((k <= 0) || (k2 <= 0))); -/*... now U1 == 1 ulp of 1 - ... */ -if( cmp( U1, E1 ) == 0 ) - printf("confirms closest relative separation U1 .\n"); -else - { - printf("gets better closest relative separation U1 = " ); - show( U1 ); - } -div( U1, One, W ); -sub( U1, Half, F9 ); -add( F9, Half, F9 ); -div( U1, U2, t ); -div( TwoForty, One, t2 ); -add( t2, t, t ); -FLOOR( t, Radix ); -if( cmp(Radix, E0) == 0 ) - printf("Radix confirmed.\n"); -else - { - printf("MYSTERY: recalculated Radix = " ); - show( Radix ); - mov( E0, Radix ); - } -add( Eight, Eight, t ); -if( cmp( Radix, t ) > 0 ) - { - printf( "Radix is too big: roundoff problems\n" ); - ErrCnt[Defect] += 1; - } -k = 1; -if( cmp( Radix, Two ) == 0 ) - k = 0; -if( cmp( Radix, Ten ) == 0 ) - k = 0; -if( cmp( Radix, One ) == 0 ) - k = 0; -if( k != 0 ) - { - printf( "Radix is not as good as 2 or 10\n" ); - ErrCnt[Flaw] += 1; - } -/*=============================================*/ -Milestone = 20; -/*=============================================*/ -sub( Half, F9, t ); -if( cmp( t, Half ) >= 0 ) - { - printf( "(1-U1)-1/2 < 1/2 is FALSE, prog. fails?\n" ); - ErrCnt[Failure] += 1; - } -mov( F9, X ); -I = 1; -sub( Half, X, Y ); -sub( Half, Y, Z ); -if( (cmp( X, One ) == 0) && (cmp( Z, Zero) != 0) ) - { - printf( "Comparison is fuzzy ,X=1 but X-1/2-1/2 != 0\n" ); - ErrCnt[Failure] += 1; - } -add( One, U2, X ); -I = 0; -/*=============================================*/ -Milestone = 25; -/*=============================================*/ -/*... BMinusU2 = nextafter(Radix, 0) */ - -sub( One, Radix, BMinusU2 ); -sub( U2, BMinusU2, t ); -add( One, t, BMinusU2 ); -/* Purify Integers */ -if( cmp(Radix,One) != 0 ) - { -/*X = - TwoForty * LOG(U1) / LOG(Radix);*/ - LOG( U1, X ); - LOG( Radix, t ); - div( t, X, X ); - mul( TwoForty, X, X ); - neg( X ); - - add( Half, X, Y ); - FLOOR( Y, Y ); - sub( Y, X, t ); - FABS( t ); - mul( Four, t, t ); - if( cmp( t, One ) < 0 ) - mov( Y, X ); - div( TwoForty, X, Precision ); - add( Half, Precision, Y ); - FLOOR( Y, Y ); - sub( Y, Precision, t ); - FABS( t ); - mul( TwoForty, t, t ); - if( cmp( t, Half ) < 0 ) - mov( Y, Precision ); - } -FLOOR( Precision, t ); -if( (cmp( Precision, t ) != 0) || (cmp( Radix, One ) == 0) ) - { - printf("Precision cannot be characterized by an Integer number\n"); - printf("of significant digits but, by itself, this is a minor flaw.\n"); - } -if( cmp(Radix, One) == 0 ) - printf("logarithmic encoding has precision characterized solely by U1.\n"); -else - { - printf("The number of significant digits of the Radix is " ); - show( Precision ); - } -mul( U2, Nine, t ); -mul( Nine, t, t ); -mul( TwoForty, t, t ); -if( cmp( t, One ) >= 0 ) - { - printf( "Precision worse than 5 decimal figures\n" ); - ErrCnt[Serious] += 1; - } -/*=============================================*/ -Milestone = 30; -/*=============================================*/ -/* Test for extra-precise subepressions has been deleted. */ -Milestone = 35; -/*=============================================*/ -if( cmp(Radix,Two) >= 0 ) - { - mul( Radix, Radix, t ); - div( t, W, X ); - add( X, One, Y ); - sub( X, Y, Z ); - add( Z, U2, T ); - sub( Z, T, X ); - if( cmp( X, U2 ) != 0 ) - { - printf( "Subtraction is not normalized X=Y,X+Z != Y+Z!\n" ); - ErrCnt[Failure] += 1; - } - if( cmp(X,U2) == 0 ) - printf("Subtraction appears to be normalized, as it should be."); - } - -printf("\nChecking for guard digit in *, /, and -.\n"); -mul( F9, One, Y ); -mul( One, F9, Z ); -sub( Half, F9, X ); -sub( Half, Y, Y ); -sub( X, Y, Y ); -sub( Half, Z, Z ); -sub( X, Z, Z ); -add( One, U2, X ); -mul( X, Radix, T ); -mul( Radix, X, R ); -sub( Radix, T, X ); -mul( Radix, U2, t ); -sub( t, X, X ); -sub( Radix, R, T ); -mul( Radix, U2, t ); -sub( t, T, T ); -sub( One, Radix, t ); -mul( t, X, X ); -sub( One, Radix, t ); -mul( t, T, T ); - -k = cmp(X,Zero); -k |= cmp(Y,Zero); -k |= cmp(Z,Zero); -k |= cmp(T,Zero); -if( k == 0 ) - GMult = Yes; -else - { - GMult = No; - ErrCnt[Serious] += 1; - printf( "* lacks a Guard Digit, so 1*X != X\n" ); - } -mul( Radix, U2, Z ); -add( One, Z, X ); -add( X, Z, Y ); -mul( X, X, t ); -sub( t, Y, Y ); -FABS( Y ); -sub( U2, Y, Y ); -sub( U2, One, X ); -sub( U2, X, Z ); -mul( X, X, t ); -sub( t, Z, Z ); -FABS( Z ); -sub( U1, Z, Z ); -if( (cmp(Y,Zero) > 0) || (cmp(Z,Zero) > 0) ) - { - ErrCnt[Failure] += 1; - printf( "* gets too many final digits wrong.\n" ); - } -sub( U2, One, Y ); -add( One, U2, X ); -div( Y, One, Z ); -sub( X, Z, Y ); -div( Three, One, X ); -div( Nine, Three, Z ); -sub( Z, X, X ); -div( TwentySeven, Nine, T ); -sub( T, Z, Z ); -k = cmp( X, Zero ); -k |= cmp( Y, Zero ); -k |= cmp( Z, Zero ); -if( k ) - { - ErrCnt[Defect] += 1; -printf( "Division lacks a Guard Digit, so error can exceed 1 ulp\n" ); -printf( "or 1/3 and 3/9 and 9/27 may disagree\n" ); - } -div( One, F9, Y ); -sub( Half, F9, X ); -sub( Half, Y, Y ); -sub( X, Y, Y ); -add( One, U2, X ); -div( One, X, T ); -sub( X, T, X ); -k = cmp( X, Zero ); -k |= cmp( Y, Zero ); -k |= cmp( Z, Zero ); -if( k == 0 ) - GDiv = Yes; -else - { - GDiv = No; - ErrCnt[Serious] += 1; - printf( "Division lacks a Guard Digit, so X/1 != X\n" ); - } -add( One, U2, X ); -div( X, One, X ); -sub( Half, X, Y ); -sub( Half, Y, Y ); -if( cmp(Y,Zero) >= 0 ) - { - ErrCnt[Serious] += 1; - printf( "Computed value of 1/1.000..1 >= 1\n" ); - } -sub( U2, One, X ); -mul( Radix, U2, Y ); -add( One, Y, Y ); -mul( X, Radix, Z ); -mul( Y, Radix, T ); -div( Radix, Z, R ); -div( Radix, T, StickyBit ); -sub( X, R, X ); -sub( Y, StickyBit, Y ); -k = cmp( X, Zero ); -k |= cmp( Y, Zero ); -if( k ) - { - ErrCnt[Failure] += 1; - printf( "* and/or / gets too many last digits wrong\n" ); - } -sub( U1, One, Y ); -sub( F9, One, X ); -sub( Y, One, Y ); -sub( U2, Radix, T ); -sub( BMinusU2, Radix, Z ); -sub( T, Radix, T ); -k = cmp( X, U1 ); -k |= cmp( Y, U1 ); -k |= cmp( Z, U2 ); -k |= cmp( T, U2 ); -if( k == 0 ) - GAddSub = Yes; -else - { - GAddSub = No; - ErrCnt[Serious] += 1; - printf( "- lacks Guard Digit, so cancellation is obscured\n" ); - } -sub( One, F9, t ); -if( (cmp(F9,One) != 0) && (cmp(t,Zero) >= 0) ) - { - ErrCnt[Serious] += 1; - printf("comparison alleges (1-U1) < 1 although\n"); - printf(" subtration yields (1-U1) - 1 = 0 , thereby vitiating\n"); - printf(" such precautions against division by zero as\n"); - printf(" ... if (X == 1.0) {.....} else {.../(X-1.0)...}\n"); - } -if (GMult == Yes && GDiv == Yes && GAddSub == Yes) - printf(" *, /, and - appear to have guard digits, as they should.\n"); -/*=============================================*/ -Milestone = 40; -/*=============================================*/ -printf("Checking rounding on multiply, divide and add/subtract.\n"); -RMult = Other; -RDiv = Other; -RAddSub = Other; -div( Two, Radix, RadixD2 ); -mov( Two, A1 ); -Done = False; -do - { - mov( Radix, AInvrse ); - do - { - mov( AInvrse, X ); - div( A1, AInvrse, AInvrse ); - FLOOR( AInvrse, t ); - k = cmp( t, AInvrse ); - } - while( ! (k != 0 ) ); - k = cmp( X, One ); - k2 = cmp( A1, Three ); - Done = (k == 0) || (k2 > 0); - if(! Done) - add( Nine, One, A1 ); - } -while( ! (Done)); -if( cmp(X, One) == 0 ) - mov( Radix, A1 ); -div( A1, One, AInvrse ); -mov( A1, X ); -mov( AInvrse, Y ); -Done = False; -do - { - mul( X, Y, Z ); - sub( Half, Z, Z ); - if( cmp( Z, Half ) != 0 ) - { - ErrCnt[Failure] += 1; - printf( "X * (1/X) differs from 1\n" ); - } - k = cmp( X, Radix ); - Done = (k == 0); - mov( Radix, X ); - div( X, One, Y ); - } -while( ! (Done)); - -add( One, U2, Y2 ); -sub( U2, One, YY1 ); -sub( U2, OneAndHalf, X ); -add( OneAndHalf, U2, Y ); -sub( U2, X, Z ); -mul( Z, Y2, Z ); -mul( Y, YY1, T ); -sub( X, Z, Z ); -sub( X, T, T ); -mul( X, Y2, X ); -add( Y, U2, Y ); -mul( Y, YY1, Y ); -sub( OneAndHalf, X, X ); -sub( OneAndHalf, Y, Y ); -k = cmp( X, Zero ); -k |= cmp( Y, Zero ); -k |= cmp( Z, Zero ); -if( cmp( T, Zero ) > 0 ) - k = 1; -if( k == 0 ) - { - add( OneAndHalf, U2, X ); - mul( X, Y2, X ); - sub( U2, OneAndHalf, Y ); - sub( U2, Y, Y ); - add( OneAndHalf, U2, Z ); - add( U2, Z, Z ); - sub( U2, OneAndHalf, T ); - mul( T, YY1, T ); - add( Z, U2, t ); - sub( t, X, X ); - mul( Y, YY1, StickyBit ); - mul( Z, Y2, S ); - sub( Y, T, T ); - sub( Y, U2, Y ); - add( StickyBit, Y, Y ); -/* Z = S - (Z + U2 + U2); */ - add( Z, U2, t ); - add( t, U2, t ); - sub( t, S, Z ); - add( Y2, U2, t ); - mul( t, YY1, StickyBit ); - mul( Y2, YY1, YY1 ); - sub( Y2, StickyBit, StickyBit ); - sub( Half, YY1, YY1 ); - k = cmp( X, Zero ); - k |= cmp( Y, Zero ); - k |= cmp( Z, Zero ); - k |= cmp( T, Zero ); - k |= cmp( StickyBit, Zero ); - k |= cmp( YY1, Half ); - if( k == 0 ) - { - RMult = Rounded; - printf("Multiplication appears to round correctly.\n"); - } - else - { - add( X, U2, t ); - k = cmp( t, Zero ); - if( cmp( Y, Zero ) >= 0 ) - k |= 1; - add( Z, U2, t ); - k |= cmp( t, Zero ); - if( cmp( T, Zero ) >= 0 ) - k |= 1; - add( StickyBit, U2, t ); - k |= cmp( t, Zero ); - if( cmp(YY1, Half) >= 0 ) - k |= 1; - if( k == 0 ) - { - printf("Multiplication appears to chop.\n"); - } - else - { - printf("* is neither chopped nor correctly rounded.\n"); - } - if( (RMult == Rounded) && (GMult == No) ) - printf("Multiplication has inconsistent result"); - } - } -else - printf("* is neither chopped nor correctly rounded.\n"); - -/*=============================================*/ -Milestone = 45; -/*=============================================*/ -add( One, U2, Y2 ); -sub( U2, One, YY1 ); -add( OneAndHalf, U2, Z ); -add( Z, U2, Z ); -div( Y2, Z, X ); -sub( U2, OneAndHalf, T ); -sub( U2, T, T ); -sub( U2, T, Y ); -div( YY1, Y, Y ); -add( Z, U2, Z ); -div( Y2, Z, Z ); -sub( OneAndHalf, X, X ); -sub( T, Y, Y ); -div( YY1, T, T ); -add( OneAndHalf, U2, t ); -sub( t, Z, Z ); -sub( OneAndHalf, U2, t ); -add( t, T, T ); -k = 0; -if( cmp( X, Zero ) > 0 ) - k = 1; -if( cmp( Y, Zero ) > 0 ) - k = 1; -if( cmp( Z, Zero ) > 0 ) - k = 1; -if( cmp( T, Zero ) > 0 ) - k = 1; -if( k == 0 ) - { - div( Y2, OneAndHalf, X ); - sub( U2, OneAndHalf, Y ); - add( U2, OneAndHalf, Z ); - sub( Y, X, X ); - div( YY1, OneAndHalf, T ); - div( YY1, Y, Y ); - add( Z, U2, t ); - sub( t, T, T ); - sub( Z, Y, Y ); - div( Y2, Z, Z ); - add( Y2, U2, YY1 ); - div( Y2, YY1, YY1 ); - sub( OneAndHalf, Z, Z ); - sub( Y2, YY1, Y2 ); - sub( U1, F9, YY1 ); - div( F9, YY1, YY1 ); - k = cmp( X, Zero ); - k |= cmp( Y, Zero ); - k |= cmp( Z, Zero ); - k |= cmp( T, Zero ); - k |= cmp( Y2, Zero ); - sub( Half, YY1, t ); - sub( Half, F9, t2 ); - k |= cmp( t, t2 ); - if( k == 0 ) - { - RDiv = Rounded; - printf("Division appears to round correctly.\n"); - if(GDiv == No) - printf("Division test inconsistent\n"); - } - else - { - k = 0; - if( cmp( X, Zero ) >= 0 ) - k = 1; - if( cmp( Y, Zero ) >= 0 ) - k = 1; - if( cmp( Z, Zero ) >= 0 ) - k = 1; - if( cmp( T, Zero ) >= 0 ) - k = 1; - if( cmp( Y, Zero ) >= 0 ) - k = 1; - sub( Half, YY1, t ); - sub( Half, F9, t2 ); - if( cmp( t, t2 ) >= 0 ) - k = 1; - if( k == 0 ) - { - RDiv = Chopped; - printf("Division appears to chop.\n"); - } - } - } -if(RDiv == Other) - printf("/ is neither chopped nor correctly rounded.\n"); -div( Radix, One, BInvrse ); -mul( BInvrse, Radix, t ); -sub( Half, t, t ); -if( cmp( t, Half ) != 0 ) - { - ErrCnt[Failure] += 1; - printf( "Radix * ( 1 / Radix ) differs from 1\n" ); - } - -Milestone = 50; -/*=============================================*/ -add( F9, U1, t ); -sub( Half, t, t ); -k = cmp( t, Half ); -add( BMinusU2, U2, t ); -sub( One, t, t ); -sub( One, Radix, t2 ); -k |= cmp( t, t2 ); -if( k != 0 ) - { - ErrCnt[Failure] += 1; - printf( "Incomplete carry-propagation in Addition\n" ); - } -mul( U1, U1, X ); -sub( X, One, X ); -sub( U2, One, Y ); -mul( U2, Y, Y ); -add( One, Y, Y ); -sub( Half, F9, Z ); -sub( Half, X, X ); -sub( Z, X, X ); -sub( One, Y, Y ); -if( (cmp(X,Zero) == 0) && (cmp(Y,Zero) == 0) ) - { - RAddSub = Chopped; - printf("Add/Subtract appears to be chopped.\n"); - } -if(GAddSub == Yes) - { - add( Half, U2, X ); - mul( X, U2, X ); - sub( U2, Half, Y ); - mul( Y, U2, Y ); - add( One, X, X ); - add( One, Y, Y ); - add( One, U2, t ); - sub( X, t, X ); - sub( Y, One, Y ); - k = cmp(X,Zero); - if( k ) - printf( "1+U2-[u2(1/2+U2)+1] != 0\n" ); - k2 = cmp(Y,Zero); - if( k2 ) - printf( "1-[U2(1/2-U2)+1] != 0\n" ); - k |= k2; - if( k == 0 ) - { - add( Half, U2, X ); - mul( X, U1, X ); - sub( U2, Half, Y ); - mul( Y, U1, Y ); - sub( X, One, X ); - sub( Y, One, Y ); - sub( X, F9, X ); - sub( Y, One, Y ); - k = cmp(X,Zero); - if( k ) - printf( "F9-[1-U1(1/2+U2)] != 0\n" ); - k2 = cmp(Y,Zero); - if( k2 ) - printf( "1-[1-U1(1/2-U2)] != 0\n" ); - k |= k2; - if( k == 0 ) - { - RAddSub = Rounded; - printf("Addition/Subtraction appears to round correctly.\n"); - if(GAddSub == No) - printf( "Add/Subtract test inconsistent\n"); - } - else - { - printf("Addition/Subtraction neither rounds nor chops.\n"); - } - } - else - printf("Addition/Subtraction neither rounds nor chops.\n"); - } -else - printf("Addition/Subtraction neither rounds nor chops.\n"); - -mov( One, S ); -add( One, Half, X ); -mul( Half, X, X ); -add( One, X, X ); -add( One, U2, Y ); -mul( Y, Half, Y ); -sub( Y, X, Z ); -sub( X, Y, T ); -add( Z, T, StickyBit ); -if( cmp(StickyBit, Zero) != 0 ) - { - mov( Zero, S ); - ErrCnt[Flaw] += 1; - printf( "(X - Y) + (Y - X) is non zero!\n" ); - } -mov( Zero, StickyBit ); -FLOOR( RadixD2, t ); -k2 = cmp( t, RadixD2 ); -k = 1; -if( (GMult == Yes) && (GDiv == Yes) && (GAddSub == Yes) - && (RMult == Rounded) && (RDiv == Rounded) - && (RAddSub == Rounded) && (k2 == 0) ) - { - printf("Checking for sticky bit.\n"); - k = 0; - add( Half, U1, X ); - mul( X, U2, X ); - mul( Half, U2, Y ); - add( One, Y, Z ); - add( One, X, T ); - sub( One, Z, t ); - sub( One, T, t2 ); - if( cmp(t,Zero) > 0 ) - { - k = 1; - printf( "[1+(1/2)U2]-1 > 0\n" ); - } - if( cmp(t2,U2) < 0 ) - { - k = 1; - printf( "[1+U2(1/2+U1)]-1 < U2\n" ); - } - add( T, Y, Z ); - sub( X, Z, Y ); - sub( T, Z, t ); - sub( T, Y, t2 ); - if( cmp(t,U2) < 0 ) - { - k = 1; - printf( "[[1+U2(1/2+U1)]+(1/2)U2]-[1+U2(1/2+U1)] < U2\n" ); - } - if( cmp(t2,Zero) != 0 ) - { - k = 1; - printf( "(1/2)U2-[1+U2(1/2+U1)] != 0\n" ); - } - add( Half, U1, X ); - mul( X, U1, X ); - mul( Half, U1, Y ); - sub( Y, One, Z ); - sub( X, One, T ); - sub( One, Z, t ); - sub( F9, T, t2 ); - if( cmp(t,Zero) != 0 ) - { - k = 1; - printf( "(1-(1/2)U1)-1 != 0\n" ); - } - if( cmp(t2,Zero) != 0 ) - { - k = 1; - printf( "[1-U1(1/2+U1)]-F9 != 0\n" ); - } - sub( U1, Half, Z ); - mul( Z, U1, Z ); - sub( Z, F9, T ); - sub( Y, F9, Q ); - sub( F9, T, t ); - if( cmp( t, Zero ) != 0 ) - { - k = 1; - printf( "[F9-U1(1/2-U1)]-F9 != 0\n" ); - } - sub( U1, F9, t ); - sub( Q, t, t ); - if( cmp( t, Zero ) != 0 ) - { - k = 1; - printf( "(F9-U1)-(F9-(1/2)U1) != 0\n" ); - } - add( One, U2, Z ); - mul( Z, OneAndHalf, Z ); - add( OneAndHalf, U2, T ); - sub( Z, T, T ); - add( U2, T, T ); - div( Radix, Half, X ); - add( One, X, X ); - mul( Radix, U2, Y ); - add( One, Y, Y ); - mul( X, Y, Z ); - if( cmp( T, Zero ) != 0 ) - { - k = 1; - printf( "(3/2+U2)-3/2(1+U2)+U2 != 0\n" ); - } - mul( Radix, U2, t ); - add( X, t, t ); - sub( Z, t, t ); - if( cmp( t, Zero ) != 0 ) - { - k = 1; - printf( "(1+1/2Radix)+Radix*U2-[1+1/(2Radix)][1+Radix*U2] != 0\n" ); - } - if( cmp(Radix, Two) != 0 ) - { - add( Two, U2, X ); - div( Two, X, Y ); - sub( One, Y, t ); - if( cmp( t, Zero) != 0 ) - k = 1; - } - } -if( k == 0 ) - { - printf("Sticky bit apparently used correctly.\n"); - mov( One, StickyBit ); - } -else - { - printf("Sticky bit used incorrectly or not at all.\n"); - } - -if( GMult == No || GDiv == No || GAddSub == No || - RMult == Other || RDiv == Other || RAddSub == Other) - { - ErrCnt[Flaw] += 1; - printf("lack(s) of guard digits or failure(s) to correctly round or chop\n"); -printf( "(noted above) count as one flaw in the final tally below\n" ); - } -/*=============================================*/ -Milestone = 60; -/*=============================================*/ -printf("\n"); -printf("Does Multiplication commute? "); -printf("Testing on %d random pairs.\n", NoTrials); -SQRT( Three, Random9 ); -mov( Third, Random1 ); -I = 1; -do - { - Random(); - mov( Random1, X ); - Random(); - mov( Random1, Y ); - mul( Y, X, Z9 ); - mul( X, Y, Z ); - sub( Z9, Z, Z9 ); - I = I + 1; - } -while ( ! ((I > NoTrials) || (cmp(Z9,Zero) != 0))); -if(I == NoTrials) - { - div( Three, Half, t ); - add( One, t, Random1 ); - add( U2, U1, t ); - add( t, One, Random2 ); - mul( Random1, Random2, Z ); - mul( Random2, Random1, Y ); -/* Z9 = (One + Half / Three) * ((U2 + U1) + One) - (One + Half / - * Three) * ((U2 + U1) + One); - */ - div( Three, Half, t2 ); - add( One, t2, t2 ); - add( U2, U1, t ); - add( t, One, t ); - mul( t2, t, Z9 ); - mul( t2, t, t ); - sub( t, Z9, Z9 ); - } -if(! ((I == NoTrials) || (cmp(Z9,Zero) == 0))) - { - ErrCnt[Defect] += 1; - printf( "X * Y == Y * X trial fails.\n"); - } -else - { - printf(" No failures found in %d integer pairs.\n", NoTrials); - } -/*=============================================*/ -Milestone = 70; -/*=============================================*/ -sqtest(); -Milestone = 90; -pow1test(); - -Milestone = 110; - -printf("Seeking Underflow thresholds UfThold and E0.\n"); -mov( U1, D ); -FLOOR( Precision, t ); -if( cmp(Precision, t) != 0 ) - { - mov( BInvrse, D ); - mov( Precision, X ); - do - { - mul( D, BInvrse, D ); - sub( One, X, X ); - } - while( cmp(X, Zero) > 0 ); - } -mov( One, Y ); -mov( D, Z ); -/* ... D is power of 1/Radix < 1. */ -sigsave = sigfpe; -if( setjmp(ovfl_buf) ) - goto under0; -do - { - mov( Y, C ); - mov( Z, Y ); - mul( Y, Y, Z ); - add( Z, Z, t ); - } -while( (cmp(Y,Z) > 0) && (cmp(t,Z) > 0) ); - -under0: -sigsave = 0; - -mov( C, Y ); -mul( Y, D, Z ); -sigsave = sigfpe; -if( setjmp(ovfl_buf) ) - goto under1; -do - { - mov( Y, C ); - mov( Z, Y ); - mul( Y, D, Z ); - add( Z, Z, t ); - } -while( (cmp(Y,Z) > 0) && (cmp(t,Z) > 0) ); - -under1: -sigsave = 0; - -if( cmp(Radix,Two) < 0 ) - mov( Two, HInvrse ); -else - mov( Radix, HInvrse ); -div( HInvrse, One, H ); -/* ... 1/HInvrse == H == Min(1/Radix, 1/2) */ -div( C, One, CInvrse ); -mov( C, E0 ); -mul( E0, H, Z ); -/* ...1/Radix^(BIG Integer) << 1 << CInvrse == 1/C */ -sigsave = sigfpe; -if( setjmp(ovfl_buf) ) - goto under2; -do - { - mov( E0, Y ); - mov( Z, E0 ); - mul( E0, H, Z ); - add( Z, Z, t ); - } -while( (cmp(E0,Z) > 0) && (cmp(t,Z) > 0) ); - -under2: -sigsave = 0; - -mov( E0, UfThold ); -mov( Zero, E1 ); -mov( Zero, Q ); -mov( U2, E9 ); -add( One, E9, S ); -mul( C, S, D ); -if( cmp(D,C) <= 0 ) - { - mul( Radix, U2, E9 ); - add( One, E9, S ); - mul( C, S, D ); - if( cmp(D, C) <= 0 ) - { - ErrCnt[Failure] += 1; - printf( "multiplication gets too many last digits wrong.\n" ); - mov( E0, Underflow ); - mov( Zero, YY1 ); - mov( Z, PseudoZero ); - } - } -else - { - mov( D, Underflow ); - mul( Underflow, H, PseudoZero ); - mov( Zero, UfThold ); - do - { - mov( Underflow, YY1 ); - mov( PseudoZero, Underflow ); - add( E1, E1, t ); - if( cmp(t, E1) <= 0) - { - mul( Underflow, HInvrse, Y2 ); - sub( Y2, YY1, E1 ); - FABS( E1 ); - mov( YY1, Q ); - if( (cmp( UfThold, Zero ) == 0) - && (cmp(YY1, Y2) != 0) ) - mov( YY1, UfThold ); - } - mul( PseudoZero, H, PseudoZero ); - add( PseudoZero, PseudoZero, t ); - } - while( (cmp(Underflow, PseudoZero) > 0) - && (cmp(t, PseudoZero) > 0) ); - } -/* Comment line 4530 .. 4560 */ -if( cmp(PseudoZero, Zero) != 0 ) - { - printf("\n"); - mov(PseudoZero, Z ); -/* ... Test PseudoZero for "phoney- zero" violates */ -/* ... PseudoZero < Underflow or PseudoZero < PseudoZero + PseudoZero - ... */ - if( cmp(PseudoZero, Zero) <= 0 ) - { - ErrCnt[Failure] += 1; - printf("Positive expressions can underflow to an\n"); - printf("allegedly negative value\n"); - printf("PseudoZero that prints out as: " ); - show( PseudoZero ); - mov( PseudoZero, X ); - neg( X ); - if( cmp(X, Zero) <= 0 ) - { - printf("But -PseudoZero, which should be\n"); - printf("positive, isn't; it prints out as " ); - show( X ); - } - } - else - { - ErrCnt[Flaw] += 1; - printf( "Underflow can stick at an allegedly positive\n"); - printf("value PseudoZero that prints out as " ); - show( PseudoZero ); - } -/* TstPtUf();*/ - } - -/*=============================================*/ -Milestone = 120; -/*=============================================*/ -mul( CInvrse, Y, t ); -mul( CInvrse, YY1, t2 ); -if( cmp(t,t2) > 0 ) - { - mul( H, S, S ); - mov( Underflow, E0 ); - } -if(! ((cmp(E1,Zero) == 0) || (cmp(E1,E0) == 0)) ) - { - ErrCnt[Defect] += 1; - if( cmp(E1,E0) < 0 ) - { - printf("Products underflow at a higher"); - printf(" threshold than differences.\n"); - if( cmp(PseudoZero,Zero) == 0 ) - mov( E1, E0 ); - } - else - { - printf("Difference underflows at a higher"); - printf(" threshold than products.\n"); - } - } -printf("Smallest strictly positive number found is E0 = " ); -show( E0 ); -mov( E0, Z ); -TstPtUf(); -mov( E0, Underflow ); -if(N == 1) - mov( Y, Underflow ); -I = 4; -if( cmp(E1,Zero) == 0 ) - I = 3; -if( cmp( UfThold,Zero) == 0 ) - I = I - 2; -UfNGrad = True; -switch(I) - { - case 1: - mov( Underflow, UfThold ); - mul( CInvrse, Q, t ); - mul( CInvrse, Y, t2 ); - mul( t2, S, t2 ); - if( cmp( t, t2 ) != 0 ) - { - mov( Y, UfThold ); - ErrCnt[Failure] += 1; - printf( "Either accuracy deteriorates as numbers\n"); - printf("approach a threshold = " ); - show( UfThold ); - printf(" coming down from " ); - show( C ); - printf(" or else multiplication gets too many last digits wrong.\n"); - } - break; - - case 2: - ErrCnt[Failure] += 1; - printf( "Underflow confuses Comparison which alleges that\n"); - printf("Q == Y while denying that |Q - Y| == 0; these values\n"); - printf("print out as Q = " ); - show( Q ); - printf( ", Y = " ); - show( Y ); - sub( Y2, Q, t ); - FABS(t); - printf ("|Q - Y| = " ); - show( t ); - mov( Q, UfThold ); - break; - - case 3: - mov( X, X ); - break; - - case 4: - div( E9, E1, t ); - sub( t, UfThold, t ); - FABS(t); - if( (cmp(Q,UfThold) == 0) && (cmp(E1,E0) == 0) - && (cmp(t,E1) <= 0) ) - { - UfNGrad = False; - printf("Underflow is gradual; it incurs Absolute Error =\n"); - printf("(roundoff in UfThold) < E0.\n"); - mul( E0, CInvrse, Y ); - add( OneAndHalf, U2, t ); - mul( Y, t, Y ); - add( One, U2, X ); - mul( CInvrse, X, X ); - div( X, Y, t ); - IEEE = (cmp(t,E0) == 0); - if( IEEE == 0 ) - { - printf( "((CInvrse E0) (1.5+U2)) / (CInvrse (1+U2)) != E0\n" ); - printf( "CInvrse = " ); - show( CInvrse ); - printf( "E0 = " ); - show( E0 ); - printf( "U2 = " ); - show( U2 ); - printf( "X = " ); - show(X); - printf( "Y = " ); - show(Y); - printf( "Y/X = " ); - show(t); - } - } - } -if(UfNGrad) - { - printf("\n"); - div( UfThold, Underflow, R ); - SQRT( R, R ); - if( cmp(R,H) <= 0) - { - mul( R, UfThold, Z ); -/* X = Z * (One + R * H * (One + H));*/ - add( One, H, X ); - mul( H, X, X ); - mul( R, X, X ); - add( One, X, X ); - mul( Z, X, X ); - } - else - { - mov( UfThold, Z ); -/*X = Z * (One + H * H * (One + H));*/ - add( One, H, X ); - mul( H, X, X ); - mul( H, X, X ); - add( One, X, X ); - mul( Z, X, X ); - } - sub( Z, X, t ); -/* if(! ((cmp(X,Z) == 0) || (cmp(t,Zero) != 0)) )*/ - if( (cmp(X,Z) != 0) && (cmp(t,Zero) == 0) ) - { -/* ErrCnt[Flaw] += 1;*/ - ErrCnt[Serious] += 1; - printf("X = " ); - show( X ); - printf( "\tis not equal to Z = " ); - show( Z ); -/* sub( Z, X, Z9 );*/ - printf("yet X - Z yields " ); - show( t ); - printf("which compares equal to " ); - show( Zero ); - printf(" Should this NOT signal Underflow, "); - printf("this is a SERIOUS DEFECT\nthat causes "); - printf("confusion when innocent statements like\n");; - printf(" if (X == Z) ... else"); - printf(" ... (f(X) - f(Z)) / (X - Z) ...\n"); - printf("encounter Division by Zero although actually\n"); - printf("X / Z = 1 + " ); - div( Z, X, t ); - sub( Half, t, t ); - sub( Half, t, t ); - show(t); - } - } -printf("The Underflow threshold is " ); -show( UfThold ); -printf( "below which calculation may suffer larger Relative error than" ); -printf( " merely roundoff.\n"); -mul( U1, U1, Y2 ); -mul( Y2, Y2, Y ); -mul( Y, U1, Y2 ); -if( cmp( Y2,UfThold) <= 0 ) - { - if( cmp(Y,E0) > 0 ) - { - ErrCnt[Defect] += 1; - I = 5; - } - else - { - ErrCnt[Serious] += 1; - I = 4; - } - printf("Range is too narrow; U1^%d Underflows.\n", I); - } -Milestone = 130; - -/*Y = - FLOOR(Half - TwoForty * LOG(UfThold) / LOG(HInvrse)) / TwoForty;*/ -LOG( UfThold, Y ); -LOG( HInvrse, t ); -div( t, Y, Y ); -mul( TwoForty, Y, Y ); -sub( Y, Half, Y ); -FLOOR( Y, Y ); -div( TwoForty, Y, Y ); -neg(Y); -sub( One, Y, Y2 ); /* ***** changed from Y2 = Y + Y */ -printf("Since underflow occurs below the threshold\n"); -printf("UfThold = " ); -show( HInvrse ); -printf( "\tto the power " ); -show( Y ); -printf( "only underflow should afflict the expression " ); -show( HInvrse ); -printf( "\tto the power " ); -show( Y2 ); -POW( HInvrse, Y2, V9 ); -printf("Actually calculating yields: " ); -show( V9 ); -add( Radix, Radix, t ); -add( t, E9, t ); -mul( t, UfThold, t ); -if( (cmp(V9,Zero) < 0) || (cmp(V9,t) > 0) ) - { - ErrCnt[Serious] += 1; - printf( "this is not between 0 and underflow\n"); - printf(" threshold = " ); - show( UfThold ); - } -else - { - add( One, E9, t ); - mul( UfThold, t, t ); - if( cmp(V9,t) <= 0 ) - printf("This computed value is O.K.\n"); - else - { - ErrCnt[Defect] += 1; - printf( "this is not between 0 and underflow\n"); - printf(" threshold = " ); - show( UfThold ); - } - } - -Milestone = 140; - -pow2test(); - -/*=============================================*/ -Milestone = 160; -/*=============================================*/ -Pause(); -printf("Searching for Overflow threshold:\n"); -printf("This may generate an error.\n"); -sigsave = sigfpe; -I = 0; -mov( CInvrse, Y ); /* a large power of 2 */ -neg(Y); -mul( HInvrse, Y, V9 ); /* HInvrse = 2 */ -if (setjmp(ovfl_buf)) - goto overflow; -do - { - mov( Y, V ); - mov( V9, Y ); - mul( HInvrse, Y, V9 ); - } -while( cmp(V9,Y) < 0 ); /* V9 = 2 * Y */ -I = 1; - -overflow: - -show( HInvrse ); -printf( "\ttimes " ); -show( Y ); -printf( "\tequals " ); -show( V9 ); - -mov( V9, Z ); -printf("Can `Z = -Y' overflow?\n"); -printf("Trying it on Y = " ); -show(Y); -mov( Y, V9 ); -neg( V9 ); -mov( V9, V0 ); -sub( Y, V, t ); -add( V, V0, t2 ); -if( cmp(t,t2) == 0 ) - printf("Seems O.K.\n"); -else - { - printf("finds a Flaw, -(-Y) differs from Y.\n"); - printf( "V-Y=t:" ); - show(V); - show(Y); - show(t); - printf( "V+V0=t2:" ); - show(V); - show(V0); - show(t2); - ErrCnt[Flaw] += 1; - } -if( (cmp(Z, Y) != 0) && (I != 0) ) - { - ErrCnt[Serious] += 1; - printf("overflow past " ); - show( Y ); - printf( "\tshrinks to " ); - show( Z ); - printf( "= Y * " ); - show( HInvrse ); - } -/*Y = V * (HInvrse * U2 - HInvrse);*/ -mul( HInvrse, U2, Y ); -sub( HInvrse, Y, Y ); -mul( V, Y, Y ); -/*Z = Y + ((One - HInvrse) * U2) * V;*/ -sub( HInvrse, One, Z ); -mul( Z, U2, Z ); -mul( Z, V, Z ); -add( Y, Z, Z ); -if( cmp(Z,V0) < 0 ) - mov( Z, Y ); -if( cmp(Y,V0) < 0) - mov( Y, V ); -sub( V, V0, t ); -if( cmp(t,V0) < 0 ) - mov( V0, V ); -printf("Overflow threshold is V = " ); -show( V ); -if(I) - { - printf("Overflow saturates at V0 = " ); - show( V0 ); - } -else -printf("There is no saturation value because the system traps on overflow.\n"); - -mul( V, One, V9 ); -printf("No Overflow should be signaled for V * 1 = " ); -show( V9 ); -div( One, V, V9 ); - printf(" nor for V / 1 = " ); - show( V9 ); - printf("Any overflow signal separating this * from the one\n"); - printf("above is a DEFECT.\n"); -/*=============================================*/ -Milestone = 170; -/*=============================================*/ -mov( V, t ); -neg( t ); -k = 0; -if( cmp(t,V) >= 0 ) - k = 1; -mov( V0, t ); -neg( t ); -if( cmp(t,V0) >= 0 ) - k = 1; -mov( UfThold, t ); -neg(t); -if( cmp(t,V) >= 0 ) - k = 1; -if( cmp(UfThold,V) >= 0 ) - k = 1; -if( k != 0 ) - { - ErrCnt[Failure] += 1; - printf( "Comparisons involving +-"); - show( V ); - show( V0 ); - show( UfThold ); - printf("are confused by Overflow." ); - } -/*=============================================*/ -Milestone = 175; -/*=============================================*/ -printf("\n"); -for(Indx = 1; Indx <= 3; ++Indx) { - switch(Indx) - { - case 1: mov(UfThold, Z); break; - case 2: mov( E0, Z); break; - case 3: mov(PseudoZero, Z); break; - } -if( cmp(Z, Zero) != 0 ) - { - SQRT( Z, V9 ); - mul( V9, V9, Y ); - mul( Radix, E9, t ); - sub( t, One, t ); - div( t, Y, t ); - add( One, Radix, t2 ); - add( t2, E9, t2 ); - mul( t2, Z, t2 ); - if( (cmp(t,Z) < 0) || (cmp(Y,t2) > 0) ) - { - if( cmp(V9,U1) > 0 ) - ErrCnt[Serious] += 1; - else - ErrCnt[Defect] += 1; - printf("Comparison alleges that what prints as Z = " ); - show( Z ); - printf(" is too far from sqrt(Z) ^ 2 = " ); - show( Y ); - } - } -} - -Milestone = 180; - -for(Indx = 1; Indx <= 2; ++Indx) - { - if(Indx == 1) - mov( V, Z ); - else - mov( V0, Z ); - SQRT( Z, V9 ); - mul( Radix, E9, X ); - sub( X, One, X ); - mul( X, V9, X ); - mul( V9, X, V9 ); - mul( Two, Radix, t ); - mul( t, E9, t ); - sub( t, One, t ); - mul( t, Z, t ); - if( (cmp(V9,t) < 0) || (cmp(V9,Z) > 0) ) - { - mov( V9, Y ); - if( cmp(X,W) < 0 ) - ErrCnt[Serious] += 1; - else - ErrCnt[Defect] += 1; - printf("Comparison alleges that Z = " ); - show( Z ); - printf(" is too far from sqrt(Z) ^ 2 :" ); - show( Y ); - } - } - -Milestone = 190; - -Pause(); -mul( UfThold, V, X ); -mul( Radix, Radix, Y ); -mul( X, Y, t ); -if( (cmp(t,One) < 0) || (cmp(X,Y) > 0) ) - { - mul( X, Y, t ); - div( U1, Y, t2 ); - if( (cmp(t,U1) < 0) || (cmp(X,t2) > 0) ) - { - ErrCnt[Defect] += 1; - printf( "Badly " ); - } - else - { - ErrCnt[Flaw] += 1; - } - printf(" unbalanced range; UfThold * V = " ); - show( X ); - printf( "\tis too far from 1.\n"); - } -Milestone = 200; - -for(Indx = 1; Indx <= 5; ++Indx) - { - mov( F9, X ); - switch(Indx) - { - case 2: add( One, U2, X ); break; - case 3: mov( V, X ); break; - case 4: mov(UfThold,X); break; - case 5: mov(Radix,X); - } - mov( X, Y ); - - sigsave = sigfpe; - if (setjmp(ovfl_buf)) - { - printf(" X / X traps when X = " ); - show( X ); - } - else - { -/*V9 = (Y / X - Half) - Half;*/ - div( X, Y, t ); - sub( Half, t, t ); - sub( Half, t, V9 ); - if( cmp(V9,Zero) == 0 ) - continue; - mov( U1, t ); - neg(t); - if( (cmp(V9,t) == 0) && (Indx < 5) ) - { - ErrCnt[Flaw] += 1; - } - else - { - ErrCnt[Serious] += 1; - } - printf(" X / X differs from 1 when X = " ); - show( X ); - printf(" instead, X / X - 1/2 - 1/2 = " ); - show( V9 ); - } - } - - Pause(); - printf("\n"); - { - static char *msg[] = { - "FAILUREs encountered =", - "SERIOUS DEFECTs discovered =", - "DEFECTs discovered =", - "FLAWs discovered =" }; - int i; - for(i = 0; i < 4; i++) if (ErrCnt[i]) - printf("The number of %-29s %d.\n", - msg[i], ErrCnt[i]); - } - printf("\n"); - if ((ErrCnt[Failure] + ErrCnt[Serious] + ErrCnt[Defect] - + ErrCnt[Flaw]) > 0) { - if ((ErrCnt[Failure] + ErrCnt[Serious] + ErrCnt[ - Defect] == 0) && (ErrCnt[Flaw] > 0)) { - printf("The arithmetic diagnosed seems "); - printf("satisfactory though flawed.\n"); - } - if ((ErrCnt[Failure] + ErrCnt[Serious] == 0) - && ( ErrCnt[Defect] > 0)) { - printf("The arithmetic diagnosed may be acceptable\n"); - printf("despite inconvenient Defects.\n"); - } - if ((ErrCnt[Failure] + ErrCnt[Serious]) > 0) { - printf("The arithmetic diagnosed has "); - printf("unacceptable serious defects.\n"); - } - if (ErrCnt[Failure] > 0) { - printf("Fatal FAILURE may have spoiled this"); - printf(" program's subsequent diagnoses.\n"); - } - } - else { - printf("No failures, defects nor flaws have been discovered.\n"); - if (! ((RMult == Rounded) && (RDiv == Rounded) - && (RAddSub == Rounded) && (RSqrt == Rounded))) - printf("The arithmetic diagnosed seems satisfactory.\n"); - else { - k = 0; - if( cmp( Radix, Two ) == 0 ) - k = 1; - if( cmp( Radix, Ten ) == 0 ) - k = 1; - if( (cmp(StickyBit,One) >= 0) && (k == 1) ) - { - printf("Rounding appears to conform to "); - printf("the proposed IEEE standard P"); - k = 0; - k |= cmp( Radix, Two ); - mul( Four, Three, t ); - mul( t, Two, t ); - sub( t, Precision, t ); - sub( TwentySeven, Precision, t2 ); - sub( TwentySeven, t2, t2 ); - add( t2, One, t2 ); - mul( t2, t, t ); - if( (cmp(Radix,Two) == 0) - && (cmp(t,Zero) == 0) ) - printf("754"); - else - printf("854"); - if(IEEE) - printf(".\n"); - else - { - printf(",\nexcept for possibly Double Rounding"); - printf(" during Gradual Underflow.\n"); - } - } - printf("The arithmetic diagnosed appears to be excellent!\n"); - } - } - if (fpecount) - printf("\nA total of %d floating point exceptions were registered.\n", - fpecount); - printf("END OF TEST.\n"); - } - - -/* Random */ -/* Random computes - X = (Random1 + Random9)^5 - Random1 = X - FLOOR(X) + 0.000005 * X; - and returns the new value of Random1 -*/ - - -static int randflg = 0; -FLOAT(C5em6); - -Random() -{ - -if( randflg == 0 ) - { - mov( Six, t ); - neg(t); - POW( Ten, t, t ); - mul( Five, t, C5em6 ); - randflg = 1; - } -add( Random1, Random9, t ); -mul( t, t, t2 ); -mul( t2, t2, t2 ); -mul( t, t2, t ); -FLOOR(t, t2 ); -sub( t2, t, t2 ); -mul( t, C5em6, t ); -add( t, t2, Random1 ); -/*return(Random1);*/ -} - -/* SqXMinX */ - -SqXMinX( ErrKind ) -int ErrKind; -{ -mul( X, BInvrse, t2 ); -sub( t2, X, t ); -/*SqEr = ((SQRT(X * X) - XB) - XA) / OneUlp;*/ -mul( X, X, Sqarg ); -SQRT( Sqarg, SqEr ); -sub( t2, SqEr, SqEr ); -sub( t, SqEr, SqEr ); -div( OneUlp, SqEr, SqEr ); -if( cmp(SqEr,Zero) != 0) - { - Showsq( 0 ); - add( J, One, J ); - ErrCnt[ErrKind] += 1; - printf("sqrt of " ); - mul( X, X, t ); - show( t ); - printf( "minus " ); - show( X ); - printf( "equals " ); - mul( OneUlp, SqEr, t ); - show( t ); - printf("\tinstead of correct value 0 .\n"); - } -} - -/* NewD */ - -NewD() -{ -mul( Z1, Q, X ); -/*X = FLOOR(Half - X / Radix) * Radix + X;*/ -div( Radix, X, t ); -sub( t, Half, t ); -FLOOR( t, t ); -mul( t, Radix, t ); -add( t, X, X ); -/*Q = (Q - X * Z) / Radix + X * X * (D / Radix);*/ -mul( X, Z, t ); -sub( t, Q, t ); -div( Radix, t, t ); -div( Radix, D, t2 ); -mul( X, t2, t2 ); -mul( X, t2, t2 ); -add( t, t2, Q ); -/*Z = Z - Two * X * D;*/ -mul( Two, X, t ); -mul( t, D, t ); -sub( t, Z, Z ); - -if( cmp(Z,Zero) <= 0) - { - neg(Z); - neg(Z1); - } -mul( Radix, D, D ); -} - -/* SR3750 */ - -SR3750() -{ -sub( Radix, X, t ); -sub( Radix, Z2, t2 ); -k = 0; -if( cmp(t,t2) < 0 ) - k = 1; -sub( Z2, X, t ); -sub( Z2, W, t2 ); -if( cmp(t,t2) > 0 ) - k = 1; -/*if (! ((X - Radix < Z2 - Radix) || (X - Z2 > W - Z2))) {*/ -if( k == 0 ) - { - I = I + 1; - mul( X, D, X2 ); - mov( X2, Sqarg ); - SQRT( X2, X2 ); -/*Y2 = (X2 - Z2) - (Y - Z2);*/ - sub( Z2, X2, Y2 ); - sub( Z2, Y, t ); - sub( t, Y2, Y2 ); - sub( Half, Y, X2 ); - div( X2, X8, X2 ); - mul( Half, X2, t ); - mul( t, X2, t ); - sub( t, X2, X2 ); -/*SqEr = (Y2 + Half) + (Half - X2);*/ - add( Y2, Half, SqEr ); - sub( X2, Half, t ); - add( t, SqEr, SqEr ); - Showsq( -1 ); - sub( X2, Y2, SqEr ); - Showsq( 1 ); - } -} - -/* IsYeqX */ - -IsYeqX() -{ -if( cmp(Y,X) != 0 ) - { - if (N <= 0) - { - if( (cmp(Z,Zero) == 0) && (cmp(Q,Zero) <= 0) ) - printf("WARNING: computing\n"); - else - { - ErrCnt[Defect] += 1; - printf( "computing\n"); - } - show( Z ); - printf( "\tto the power " ); - show( Q ); - printf("\tyielded " ); - show( Y ); - printf("\twhich compared unequal to correct " ); - show( X ); - sub( X, Y, t ); - printf("\t\tthey differ by " ); - show( t ); - } - N = N + 1; /* ... count discrepancies. */ - } -} - -/* SR3980 */ - -SR3980() -{ -long li; - -do - { -/*Q = (FLOAT) I;*/ - li = I; - LTOF( &li, Q ); - POW( Z, Q, Y ); - IsYeqX(); - if(++I > M) - break; - mul( Z, X, X ); - } -while( cmp(X,W) < 0 ); -} - -/* PrintIfNPositive */ - -PrintIfNPositive() -{ -if(N > 0) - printf("Similar discrepancies have occurred %d times.\n", N); -} - - -/* TstPtUf */ - -TstPtUf() -{ -N = 0; -if( cmp(Z,Zero) != 0) - { - printf( "Z = " ); - show(Z); - printf("Since comparison denies Z = 0, evaluating "); - printf("(Z + Z) / Z should be safe.\n"); - sigsave = sigfpe; - if (setjmp(ovfl_buf)) - goto very_serious; - add( Z, Z, Q9 ); - div( Z, Q9, Q9 ); - printf("What the machine gets for (Z + Z) / Z is " ); - show( Q9 ); - sub( Two, Q9, t ); - FABS(t); - mul( Radix, U2, t2 ); - if( cmp(t,t2) < 0 ) - { - printf("This is O.K., provided Over/Underflow"); - printf(" has NOT just been signaled.\n"); - } - else - { - if( (cmp(Q9,One) < 0) || (cmp(Q9,Two) > 0) ) - { -very_serious: - N = 1; - ErrCnt [Serious] = ErrCnt [Serious] + 1; - printf("This is a VERY SERIOUS DEFECT!\n"); - } - else - { - N = 1; - ErrCnt[Defect] += 1; - printf("This is a DEFECT!\n"); - } - } - mul( Z, One, V9 ); - mov( V9, Random1 ); - mul( One, Z, V9 ); - mov( V9, Random2 ); - div( One, Z, V9 ); - if( (cmp(Z,Random1) == 0) && (cmp(Z,Random2) == 0) - && (cmp(Z,V9) == 0) ) - { - if (N > 0) - Pause(); - } - else - { - N = 1; - ErrCnt[Defect] += 1; - printf( "What prints as Z = "); - show( Z ); - printf( "\tcompares different from " ); - if( cmp(Z,Random1) != 0) - { - printf("Z * 1 = " ); - show( Random1 ); - } - if( (cmp(Z,Random2) != 0) - || (cmp(Random2,Random1) != 0) ) - { - printf("1 * Z == " ); - show( Random2 ); - } - if( cmp(Z,V9) != 0 ) - { - printf("Z / 1 = " ); - show( V9 ); - } - if( cmp(Random2,Random1) != 0 ) - { - ErrCnt[Defect] += 1; - printf( "Multiplication does not commute!\n"); - printf("\tComparison alleges that 1 * Z = " ); - show(Random2); - printf("\tdiffers from Z * 1 = " ); - show(Random1); - } - Pause(); - } - } -} - -Pause() -{ -} - -Sign( x, y ) -FSIZE *x, *y; -{ - -if( cmp( x, Zero ) < 0 ) - { - mov( One, y ); - neg( y ); - } -else - { - mov( One, y ); - } -} - -sqtest() -{ -printf("\nRunning test of square root(x).\n"); - -RSqrt = Other; -k = 0; -SQRT( Zero, t ); -k |= cmp( Zero, t ); -mov( Zero, t ); -neg(t); -SQRT( t, t2 ); -k |= cmp( t, t2 ); -SQRT( One, t ); -k |= cmp( One, t ); -if( k != 0 ) - { - ErrCnt[Failure] += 1; - printf( "Square root of 0.0, -0.0 or 1.0 wrong\n"); - } -mov( Zero, MinSqEr ); -mov( Zero, MaxSqEr ); -mov( Zero, J ); -mov( Radix, X ); -mov( U2, OneUlp ); -SqXMinX( Serious ); -mov( BInvrse, X ); -mul( BInvrse, U1, OneUlp ); -SqXMinX( Serious ); -mov( U1, X ); -mul( U1, U1, OneUlp ); -SqXMinX( Serious ); -if( cmp(J,Zero) != 0) - Pause(); -printf("Testing if sqrt(X * X) == X for %d Integers X.\n", NoTrials); -mov( Zero, J ); -mov( Two, X ); -mov( Radix, Y ); -if( cmp(Radix,One) != 0 ) - { - lngint = NoTrials; - LTOF( &lngint, t ); - FTOL( t, &lng2, X ); - if( lngint != lng2 ) - { - printf( "Integer conversion error\n" ); - exit(1); - } - do - { - mov( Y, X ); - mul( Radix, Y, Y ); - sub( X, Y, t2 ); - } - while( ! (cmp(t2,t) >= 0) ); - } -mul( X, U2, OneUlp ); -I = 1; -while(I < 10) - { - add( X, One, X ); - SqXMinX( Defect ); - if( cmp(J,Zero) > 0 ) - break; - I = I + 1; - } -printf("Test for sqrt monotonicity.\n"); -I = - 1; -mov( BMinusU2, X ); -mov( Radix, Y ); -mul( Radix, U2, Z ); -add( Radix, Z, Z ); -NotMonot = False; -Monot = False; -while( ! (NotMonot || Monot)) - { - I = I + 1; - SQRT(X, X); - SQRT(Y,Q); - SQRT(Z,Z); - if( (cmp(X,Q) > 0) || (cmp(Q,Z) > 0) ) - NotMonot = True; - else - { - add( Q, Half, Q ); - FLOOR( Q, Q ); - mul( Q, Q, t ); - if( (I > 0) || (cmp(Radix,t) == 0) ) - Monot = True; - else if (I > 0) - { - if(I > 1) - Monot = True; - else - { - mul( Y, BInvrse, Y ); - sub( U1, Y, X ); - add( Y, U1, Z ); - } - } - else - { - mov( Q, Y ); - sub( U2, Y, X ); - add( Y, U2, Z ); - } - } - } -if( Monot ) - printf("sqrt has passed a test for Monotonicity.\n"); -else - { - ErrCnt[Defect] += 1; - printf("sqrt(X) is non-monotonic for X near " ); - show(Y); - } -/*=============================================*/ -Milestone = 80; -/*=============================================*/ -add( MinSqEr, Half, MinSqEr ); -sub( Half, MaxSqEr, MaxSqEr); -/*Y = (SQRT(One + U2) - One) / U2;*/ -add( One, U2, Sqarg ); -SQRT( Sqarg, Y ); -sub( One, Y, Y ); -div( U2, Y, Y ); -/*SqEr = (Y - One) + U2 / Eight;*/ -sub( One, Y, t ); -div( Eight, U2, SqEr ); -add( t, SqEr, SqEr ); -Showsq( 1 ); -div( Eight, U2, SqEr ); -add( Y, SqEr, SqEr ); -Showsq( -1 ); -/*Y = ((SQRT(F9) - U2) - (One - U2)) / U1;*/ -mov( F9, Sqarg ); -SQRT( Sqarg, Y ); -sub( U2, Y, Y ); -sub( U2, One, t ); -sub( t, Y, Y ); -div( U1, Y, Y ); -div( Eight, U1, SqEr ); -add( Y, SqEr, SqEr ); -Showsq( 1 ); -/*SqEr = (Y + One) + U1 / Eight;*/ -div( Eight, U1, t ); -add( Y, One, SqEr ); -add( SqEr, t, SqEr ); -Showsq( -1 ); -mov( U2, OneUlp ); -mov( OneUlp, X ); -for( Indx = 1; Indx <= 3; ++Indx) - { -/*Y = SQRT((X + U1 + X) + F9);*/ - add( X, U1, Y ); - add( Y, X, Y ); - add( Y, F9, Y ); - mov( Y, Sqarg ); - SQRT( Sqarg, Y ); -/*Y = ((Y - U2) - ((One - U2) + X)) / OneUlp;*/ - sub( U2, One, t ); - add( t, X, t ); - sub( U2, Y, Y ); - sub( t, Y, Y ); - div( OneUlp, Y, Y ); -/*Z = ((U1 - X) + F9) * Half * X * X / OneUlp;*/ - sub( X, U1, t ); - add( t, F9, t ); - mul( t, Half, t ); - mul( t, X, t ); - mul( t, X, t ); - div( OneUlp, t, Z ); - add( Y, Half, SqEr ); - add( SqEr, Z, SqEr ); - Showsq( -1 ); - sub( Half, Y, SqEr ); - add( SqEr, Z, SqEr ); - Showsq( 1 ); - if(((Indx == 1) || (Indx == 3))) - { -/*X = OneUlp * Sign (X) * FLOOR(Eight / (Nine * SQRT(OneUlp)));*/ - mov( OneUlp, Sqarg ); - SQRT( Sqarg, t ); - mul( Nine, t, t ); - div( t, Eight, t ); - FLOOR( t, t ); - Sign( X, t2 ); - mul( t2, t, t ); - mul( OneUlp, t, X ); - } - else - { - mov( U1, OneUlp ); - mov( OneUlp, X ); - neg( X ); - } - } -/*=============================================*/ -Milestone = 85; -/*=============================================*/ -SqRWrng = False; -Anomaly = False; -if( cmp(Radix,One) != 0 ) - { - printf("Testing whether sqrt is rounded or chopped.\n"); -/*D = FLOOR(Half + POW(Radix, One + Precision - FLOOR(Precision)));*/ - FLOOR( Precision, t2 ); - add( One, Precision, t ); - sub( t2, t, t ); - POW( Radix, t, D ); - add( Half, D, D ); - FLOOR( D, D ); -/* ... == Radix^(1 + fract) if (Precision == Integer + fract. */ - div( Radix, D, X ); - div( A1, D, Y ); - FLOOR( X, t ); - FLOOR( Y, t2 ); - if( (cmp(X,t) != 0) || (cmp(Y,t2) != 0) ) - { - Anomaly = True; - printf( "Anomaly 1\n" ); - } - else - { - mov( Zero, X ); - mov( X, Z2 ); - mov( One, Y ); - mov( Y, Y2 ); - sub( One, Radix, Z1 ); - mul( Four, D, FourD ); - do - { - if( cmp(Y2,Z2) >0 ) - { - mov( Radix, Q ); - mov( Y, YY1 ); - do - { -/*X1 = FABS(Q + FLOOR(Half - Q / YY1) * YY1);*/ - div( YY1, Q, t ); - sub( t, Half, t ); - FLOOR( t, t ); - mul( t, YY1, t ); - add( Q, t, X1 ); - FABS( X1 ); - mov( YY1, Q ); - mov( X1, YY1 ); - } - while( ! (cmp(X1,Zero) <= 0) ); - if( cmp(Q,One) <= 0 ) - { - mov( Y2, Z2 ); - mov( Y, Z ); - } - } - add( Y, Two, Y ); - add( X, Eight, X ); - add( Y2, X, Y2 ); - if( cmp(Y2,FourD) >= 0 ) - sub( FourD, Y2, Y2 ); - } - while( ! (cmp(Y,D) >= 0) ); - sub( Z2, FourD, X8 ); - mul( Z, Z, Q ); - add( X8, Q, Q ); - div( FourD, Q, Q ); - div( Eight, X8, X8 ); - FLOOR( Q, t ); - if( cmp(Q,t) != 0 ) - { - Anomaly = True; - printf( "Anomaly 2\n" ); - } - else - { - Break = False; - do - { - mul( Z1, Z, X ); -/*X = X - FLOOR(X / Radix) * Radix;*/ - div( Radix, X, t ); - FLOOR( t, t ); - mul( t, Radix, t ); - sub( t, X, X ); - if( cmp(X,One) == 0 ) - Break = True; - else - sub( One, Z1, Z1 ); - } - while( ! (Break || (cmp(Z1,Zero) <= 0)) ); - if( (cmp(Z1,Zero) <= 0) && (! Break)) - { - printf( "Anomaly 3\n" ); - Anomaly = True; - } - else - { - if( cmp(Z1,RadixD2) > 0) - sub( Radix, Z1, Z1 ); - do - { - NewD(); - mul( U2, D, t ); - } - while( ! (cmp(t,F9) >= 0) ); - mul( D, Radix, t ); - sub( D, t, t ); - sub( D, W, t2 ); - if (cmp(t,t2) != 0 ) - { - printf( "Anomaly 4\n" ); - Anomaly = True; - } - else - { - mov( D, Z2 ); - I = 0; - add( One, Z, t ); - mul( t, Half, t ); - add( D, t, Y ); - add( D, Z, X ); - add( X, Q, X ); - SR3750(); - sub( Z, One, t ); - mul( t, Half, t ); - add( D, t, Y ); - add( Y, D, Y ); - sub( Z, D, X ); - add( X, D, X ); - add( X, Q, t ); - add( t, X, X ); - SR3750(); - NewD(); - sub( Z2, D, t ); - sub( Z2, W, t2 ); - if(cmp(t,t2) != 0 ) - { - printf( "Anomaly 5\n" ); - Anomaly = True; - } - else - { -/*Y = (D - Z2) + (Z2 + (One - Z) * Half);*/ - sub( Z, One, t ); - mul( t, Half, t ); - add( Z2, t, t ); - sub( Z2, D, Y ); - add( Y, t, Y ); -/*X = (D - Z2) + (Z2 - Z + Q);*/ - sub( Z, Z2, t ); - add( t, Q, t ); - sub( Z2, D, X ); - add( X, t, X ); - SR3750(); - add( One, Z, Y ); - mul( Y, Half, Y ); - mov( Q, X ); - SR3750(); - if(I == 0) - { - printf( "Anomaly 6\n" ); - Anomaly = True; - } - } - } - } - } - } - if ((I == 0) || Anomaly) - { - ErrCnt[Failure] += 1; - printf( "Anomalous arithmetic with Integer < \n"); - printf("Radix^Precision = " ); - show( W ); - printf(" fails test whether sqrt rounds or chops.\n"); - SqRWrng = True; - } - } -if(! Anomaly) - { - if(! ((cmp(MinSqEr,Zero) < 0) || (cmp(MaxSqEr,Zero) > 0))) { - RSqrt = Rounded; - printf("Square root appears to be correctly rounded.\n"); - } - else - { - k = 0; - add( MaxSqEr, U2, t ); - sub( Half, U2, t2 ); - if( cmp(t,t2) > 0 ) - k = 1; - if( cmp( MinSqEr, Half ) > 0 ) - k = 1; - add( MinSqEr, Radix, t ); - if( cmp( t, Half ) < 0 ) - k = 1; - if( k == 1 ) - SqRWrng = True; - else - { - RSqrt = Chopped; - printf("Square root appears to be chopped.\n"); - } - } - } -if( SqRWrng ) - { - printf("Square root is neither chopped nor correctly rounded.\n"); - printf("Observed errors run from " ); - sub( Half, MinSqEr, t ); - show( t ); - printf("\tto " ); - add( Half, MaxSqEr, t ); - show( t ); - printf( "ulps.\n" ); - sub( MinSqEr, MaxSqEr, t ); - mul( Radix, Radix, t2 ); - if( cmp( t, t2 ) >= 0 ) - { - ErrCnt[Serious] += 1; - printf( "sqrt gets too many last digits wrong\n"); - } - } -} - -Showsq( arg ) -int arg; -{ - -k = 0; -if( arg <= 0 ) - { - if( cmp(SqEr,MinSqEr) < 0 ) - { - k = 1; - mov( SqEr, MinSqEr ); - } - } -if( arg >= 0 ) - { - if( cmp(SqEr,MaxSqEr) > 0 ) - { - k = 2; - mov( SqEr, MaxSqEr ); - } - } -#if DEBUG -if( k != 0 ) - { - printf( "Square root of " ); - show( arg ); - printf( "\tis in error by " ); - show( SqEr ); - } -#endif -} - - -pow1test() -{ - -/*=============================================*/ -Milestone = 90; -/*=============================================*/ -Pause(); -printf("Testing powers Z^i for small Integers Z and i.\n"); -N = 0; -/* ... test powers of zero. */ -I = 0; -mov( Zero, Z ); -neg(Z); -M = 3; -Break = False; -do - { - mov( One, X ); - SR3980(); - if(I <= 10) - { - I = 1023; - SR3980(); - } - if( cmp(Z,MinusOne) == 0 ) - Break = True; - else - { - mov( MinusOne, Z ); - PrintIfNPositive(); - N = 0; -/* .. if(-1)^N is invalid, replace MinusOne by One. */ - I = - 4; - } - } -while( ! Break ); -PrintIfNPositive(); -N1 = N; -N = 0; -mov( A1, Z ); -/*M = FLOOR(Two * LOG(W) / LOG(A1));*/ -LOG( W, t ); -mul( Two, t, t ); -FLOOR( t, t ); -LOG( A1, t2 ); -div( t2, t, t ); -FTOL( t, &lngint, t2 ); -M = lngint; -Break = False; -do - { - mov( Z, X ); - I = 1; - SR3980(); - if( cmp(Z,AInvrse) == 0 ) - Break = True; - else - mov( AInvrse, Z ); - } -while( ! (Break) ); -/*=============================================*/ -Milestone = 100; -/*=============================================*/ -/* Powers of Radix have been tested, */ -/* next try a few primes */ - -M = NoTrials; - -mov( Three, Z ); -do - { - mov( Z, X ); - I = 1; - SR3980(); - do - { - add( Z, Two, Z ); - div( Three, Z, t ); - FLOOR( t, t ); - mul( Three, t, t ); - } - while( cmp(t,Z) == 0 ); - mul( Eight, Three, t ); - } -while( cmp(Z,t) < 0 ); - -if(N > 0) - { - printf("Errors like this may invalidate financial calculations\n"); - printf("\tinvolving interest rates.\n"); - } -PrintIfNPositive(); -N += N1; -if(N == 0) - printf("... no discrepancies found.\n"); -if(N > 0) - Pause(); -else printf("\n"); -} - - - -pow2test() -{ -printf("\n"); -/* ...calculate Exp2 == exp(2) == 7.38905 60989 30650 22723 04275-... */ -mov( Zero, X ); -mov( Two, t2 ); /*I = 2;*/ - -mul( Two, Three, Y ); -mov( Zero, Q ); -N = 0; -do - { - mov( X, Z ); - add( t2, One, t2 ); /*I = I + 1;*/ - add( t2, t2, t ); - div( t, Y, Y ); /*Y = Y / (I + I);*/ - add( Y, Q, R ); - add( Z, R, X ); - sub( X, Z, Q ); - add( Q, R, Q ); - } -while( cmp(X,Z) > 0 ); - -/*Z = (OneAndHalf + One / Eight) + X / (OneAndHalf * ThirtyTwo);*/ -div( Eight, One, t ); -add( OneAndHalf, t, Z ); -mul( OneAndHalf, ThirtyTwo, t ); -div( t, X, t ); -add( Z, t, Z ); -mul( Z, Z, X ); -mul( X, X, Exp2 ); -mov( F9, X ); -sub( U1, X, Y ); -printf("Testing X^((X + 1) / (X - 1)) vs. exp(2) = " ); -show( Exp2 ); -printf( "\tas X -> 1.\n" ); -for(I = 1;;) - { - sub( BInvrse, X, Z ); -/*Z = (X + One) / (Z - (One - BInvrse));*/ - add( X, One, t2 ); - sub( BInvrse, One, t ); - sub( t, Z, t ); - div( t, t2, Z ); - POW( X, Z, Sqarg ); - sub( Exp2, Sqarg, Q ); - mov( Q, t ); - FABS( t ); - mul( TwoForty, U2, t2 ); - if( cmp( t, t2 ) > 0 ) - { - N = 1; - sub( BInvrse, X, V9 ); - sub( BInvrse, One, t ); - sub( t, V9, V9 ); - ErrCnt[Defect] += 1; - printf( "Calculated " ); - show( Sqarg ); - printf(" for \t(1 + " ); - show( V9 ); - printf( "\tto the power " ); - show( Z ); - printf("\tdiffers from correct value by " ); - show( Q ); - printf("\tThis much error may spoil financial\n"); - printf("\tcalculations involving tiny interest rates.\n"); - break; - } - else - { - sub( X, Y, Z ); - mul( Z, Two, Z ); - add( Z, Y, Z ); - mov( Y, X ); - mov( Z, Y ); - sub( F9, X, Z ); - mul( Z, Z, Z ); - add( Z, One, Z ); - if( (cmp(Z,One) > 0) && (I < NoTrials) ) - I++; - else - { - if( cmp(X,One) > 0 ) - { - if(N == 0) - printf("Accuracy seems adequate.\n"); - break; - } - else - { - add( One, U2, X ); - add( U2, U2, Y ); - add( X, Y, Y ); - I = 1; - } - } - } - } -/*=============================================*/ -Milestone = 150; -/*=============================================*/ -printf("Testing powers Z^Q at four nearly extreme values.\n"); -N = 0; -mov( A1, Z ); -/*Q = FLOOR(Half - LOG(C) / LOG(A1));*/ -LOG( C, t ); -LOG( A1, t2 ); -div( t2, t, t ); -sub( t, Half, t ); -FLOOR( t, Q ); -Break = False; -do - { - mov( CInvrse, X ); - POW( Z, Q, Y ); - IsYeqX(); - neg(Q); - mov( C, X ); - POW( Z, Q, Y ); - IsYeqX(); - if( cmp(Z,One) < 0 ) - Break = True; - else - mov( AInvrse, Z ); - } -while( ! (Break)); -PrintIfNPositive(); -if(N == 0) - printf(" ... no discrepancies found.\n"); -printf("\n"); -} -- cgit v1.2.3