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TRIGONOMETRIC FUNCTIONS AND EQUIVALENTS (TRIGFUNC.TXT) This is a summary of numerous functions and their equivalents necessary when working with the language limitations of BASIC and others which do not include pre-programmed functions beyond sine, cosine, tangent, arctangent and others. Many are uncommon and seldom encountered but nevertheless valuable under specialized conditions. Indeed, some solutions are rarely mentioned in most references. Implementations here are presented in typical BASIC format but are readily translated to any other keeping in mind the nuances of your working language. A final section sets forth a few programming hints, and tips which help avoid run-time errors. I - Common Functions -------------------- Secant SEC(X) = 1 / COS(X) Cosecant CSC(X) = 1 / SIN(X) Cotangent COT(X) = 1 / TAN(X) Inverse Sine ARCSIN(X) = ATN(X / SQR(1-X*X)) Inverse Cosine ARCCOS(X) = - ATN(X / SQR(1-X*X)) + PI/2 Inverse Secant ARCSEC(X) = ATN(SQR(X*X-1)) + (SGN(X) -1) * PI/2 Inverse Cosecant ARCCSC(X) = ATN(1 / SQR(X*X-1)) + (SGN(X) -1) * PI/2 Inverse Cotangent ARCCOT(X) = PI/2 - ATN(X) | or | PI/2 + ATN(-X) II - Hyperbolic Functions ------------------------- Sine SINH(X) = (EXP(X) - EXP(-X)) / 2 Cosine COSH(X) = (EXP(X) + EXP(-X)) / 2 Tangent TANH(X) = -2 * EXP(-X) / (EXP(X) + EXP(-X)) + 1 Secant SECH(X) = 2 / (EXP(X) + EXP(-X)) Cosecant CSCH(X) = 2 / (EXP(X) - EXP(-X)) Cotangent COTH(X) = 2 * EXP(-X) / (EXP(X) - EXP(-X)) + 1 Inverse Sine ARCSINH(X) = LOG(X + SQR(X*X+1)) Inverse Cosine ARCCOSH(X) = LOG(X + SQR(X*X-1)) Inverse Tangent ARCTANH(X) = LOG((1+X) / (1-X)) / 2 Inverse Secant ARCSECH(X) = LOG((1+SQR(1-X*X)) / X) Inverse Cosecant ARCCSCH(X) = LOG((SGN(X) * SQR(X*X+1) + 1) / X) Inverse Cotangent ARCCOTH(X) = LOG((X+1) / (X-1)) / 2 III - Hints and Tips -------------------- The comments related here apply specifically to QuickBasic v4.0 and lower and MS GWBasic, unless otherwise mentioned. Other Basic implementations may be better or worse in certain idiosyncrasies which should be determined by users before placing total faith in any suggested anomoly trapping. These fundamental needs should be acceptable in all cases: PI = 4 * ATN(1) J = PI / 180 J is a facilitiation constant for Degrees - Radians - Degrees conversion, thusly: Variable (Xd) * J = Variable (Xr) ..... degrees to rads Variable (Xr) / J = Variable (Xd) ..... rads to degrees The question of single or double-precision use may be one of importance to your application. With MS QB, final precision deteriorates significantly when the above trig transformations are employed. In other words, don't expect single precision (7-8 digits) when using s-p or 15-16 digits in d-p. Depending on vector position, the end result can be as poor as 1/2 the expected accuracy. Also, if one wants highest accuracy, it is essential that low digit numerics (eg: 0.815) be declared as d-p (.815#) otherwise they will be treated as single precision even though attached in a series to a variable which has been declared as d-p. CAUTIONS -------- 1. Entering arguments at or very near ?1 can produce attempts to divide by zero. Some form of trapping is essential to avoid program stoppage. Appropriate filtering with bypasses, alternate paths are suggested. 2. In complex trigometric manipulations it is possible for the end result to exceed ?1. This may be due to binary quirks or simply erroneous procedures. Some form of trapping is also needed to avoid crashes when such are used as entering arguments. 3. Similarly, trapping is required for 0 and -X values when entering some functions using LOG. Also note that a few functions with SQR have other invalid ranges for entering arguments. IV - Acknowledgement Source material for Sections I and II from Texas Instruments, TI Extended BASIC handbook for the TI-99/4, 1981. -------------------- Prepared by Anthony W. Severdia : San Francisco, CA : FEB 1989 This file is in Public Domain -------------------- For QUality and Excellence in bbs'ing, visit & join QU-AN-TO QUantitative ANalytic TOols ????????????????????????????? (415) 255-2981 ?? 24 Hours ?? 3/12/2400 Baud Sysop - Dr. Ken Hunter San Francisco, CA USA ? Mathematics ? Statistics ? Decision Support ? Finance ? Sciences ? Engineering ? Programming Languages ? More ? Celestial Navigation Forum (W) Tony Severdia (Ass't Sysop) --End Downloaded from Just Say Yes. 2 lines, More than 500 files online! Full access on first call. 415-922-2008 CASFA Another file downloaded from: ! -$- & the Temple of the Screaming Electron ! * Walnut Creek, CA + /^ | ! | |//^ _^_ 2400/1200/300 baud (415) 935-5845 /^ / @ | /_-_ Jeff Hunter, Sysop |@ _| @ @|- - -| | | | /^ | _ | - - - - - - - - - * |___/____|_|_|_(_)_| Aaaaaeeeeeeeeeeeeeeeeee! / Specializing in conversations, E-Mail, obscure information, entertainment, the arts, politics, futurism, thoughtful discussion, insane speculation, and wild rumours. An ALL-TEXT BBS. "Raw data for raw minds."