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1.1 ! root 1: /* ! 2: * Copyright (c) 1985 Regents of the University of California. ! 3: * ! 4: * Use and reproduction of this software are granted in accordance with ! 5: * the terms and conditions specified in the Berkeley Software License ! 6: * Agreement (in particular, this entails acknowledgement of the programs' ! 7: * source, and inclusion of this notice) with the additional understanding ! 8: * that all recipients should regard themselves as participants in an ! 9: * ongoing research project and hence should feel obligated to report ! 10: * their experiences (good or bad) with these elementary function codes, ! 11: * using "sendbug 4bsd-bugs@BERKELEY", to the authors. ! 12: */ ! 13: ! 14: #ifndef lint ! 15: static char sccsid[] = "@(#)exp.c 4.3 (Berkeley) 8/21/85"; ! 16: #endif not lint ! 17: ! 18: /* EXP(X) ! 19: * RETURN THE EXPONENTIAL OF X ! 20: * DOUBLE PRECISION (IEEE 53 bits, VAX D FORMAT 56 BITS) ! 21: * CODED IN C BY K.C. NG, 1/19/85; ! 22: * REVISED BY K.C. NG on 2/6/85, 2/15/85, 3/7/85, 3/24/85, 4/16/85. ! 23: * ! 24: * Required system supported functions: ! 25: * scalb(x,n) ! 26: * copysign(x,y) ! 27: * finite(x) ! 28: * ! 29: * Kernel function: ! 30: * exp__E(x,c) ! 31: * ! 32: * Method: ! 33: * 1. Argument Reduction: given the input x, find r and integer k such ! 34: * that ! 35: * x = k*ln2 + r, |r| <= 0.5*ln2 . ! 36: * r will be represented as r := z+c for better accuracy. ! 37: * ! 38: * 2. Compute expm1(r)=exp(r)-1 by ! 39: * ! 40: * expm1(r=z+c) := z + exp__E(z,r) ! 41: * ! 42: * 3. exp(x) = 2^k * ( expm1(r) + 1 ). ! 43: * ! 44: * Special cases: ! 45: * exp(INF) is INF, exp(NaN) is NaN; ! 46: * exp(-INF)= 0; ! 47: * for finite argument, only exp(0)=1 is exact. ! 48: * ! 49: * Accuracy: ! 50: * exp(x) returns the exponential of x nearly rounded. In a test run ! 51: * with 1,156,000 random arguments on a VAX, the maximum observed ! 52: * error was .768 ulps (units in the last place). ! 53: * ! 54: * Constants: ! 55: * The hexadecimal values are the intended ones for the following constants. ! 56: * The decimal values may be used, provided that the compiler will convert ! 57: * from decimal to binary accurately enough to produce the hexadecimal values ! 58: * shown. ! 59: */ ! 60: ! 61: #ifdef VAX /* VAX D format */ ! 62: /* double static */ ! 63: /* ln2hi = 6.9314718055829871446E-1 , Hex 2^ 0 * .B17217F7D00000 */ ! 64: /* ln2lo = 1.6465949582897081279E-12 , Hex 2^-39 * .E7BCD5E4F1D9CC */ ! 65: /* lnhuge = 9.4961163736712506989E1 , Hex 2^ 7 * .BDEC1DA73E9010 */ ! 66: /* lntiny = -9.5654310917272452386E1 , Hex 2^ 7 * -.BF4F01D72E33AF */ ! 67: /* invln2 = 1.4426950408889634148E0 ; Hex 2^ 1 * .B8AA3B295C17F1 */ ! 68: static long ln2hix[] = { 0x72174031, 0x0000f7d0}; ! 69: static long ln2lox[] = { 0xbcd52ce7, 0xd9cce4f1}; ! 70: static long lnhugex[] = { 0xec1d43bd, 0x9010a73e}; ! 71: static long lntinyx[] = { 0x4f01c3bf, 0x33afd72e}; ! 72: static long invln2x[] = { 0xaa3b40b8, 0x17f1295c}; ! 73: #define ln2hi (*(double*)ln2hix) ! 74: #define ln2lo (*(double*)ln2lox) ! 75: #define lnhuge (*(double*)lnhugex) ! 76: #define lntiny (*(double*)lntinyx) ! 77: #define invln2 (*(double*)invln2x) ! 78: #else /* IEEE double */ ! 79: double static ! 80: ln2hi = 6.9314718036912381649E-1 , /*Hex 2^ -1 * 1.62E42FEE00000 */ ! 81: ln2lo = 1.9082149292705877000E-10 , /*Hex 2^-33 * 1.A39EF35793C76 */ ! 82: lnhuge = 7.1602103751842355450E2 , /*Hex 2^ 9 * 1.6602B15B7ECF2 */ ! 83: lntiny = -7.5137154372698068983E2 , /*Hex 2^ 9 * -1.77AF8EBEAE354 */ ! 84: invln2 = 1.4426950408889633870E0 ; /*Hex 2^ 0 * 1.71547652B82FE */ ! 85: #endif ! 86: ! 87: double exp(x) ! 88: double x; ! 89: { ! 90: double scalb(), copysign(), exp__E(), z,hi,lo,c; ! 91: int k,finite(); ! 92: ! 93: #ifndef VAX ! 94: if(x!=x) return(x); /* x is NaN */ ! 95: #endif ! 96: if( x <= lnhuge ) { ! 97: if( x >= lntiny ) { ! 98: ! 99: /* argument reduction : x --> x - k*ln2 */ ! 100: ! 101: k=invln2*x+copysign(0.5,x); /* k=NINT(x/ln2) */ ! 102: ! 103: /* express x-k*ln2 as z+c */ ! 104: hi=x-k*ln2hi; ! 105: z=hi-(lo=k*ln2lo); ! 106: c=(hi-z)-lo; ! 107: ! 108: /* return 2^k*[expm1(x) + 1] */ ! 109: z += exp__E(z,c); ! 110: return (scalb(z+1.0,k)); ! 111: } ! 112: /* end of x > lntiny */ ! 113: ! 114: else ! 115: /* exp(-big#) underflows to zero */ ! 116: if(finite(x)) return(scalb(1.0,-5000)); ! 117: ! 118: /* exp(-INF) is zero */ ! 119: else return(0.0); ! 120: } ! 121: /* end of x < lnhuge */ ! 122: ! 123: else ! 124: /* exp(INF) is INF, exp(+big#) overflows to INF */ ! 125: return( finite(x) ? scalb(1.0,5000) : x); ! 126: }
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