*DECK R9GMIT FUNCTION R9GMIT (A, X, ALGAP1, SGNGAM, ALX) C***BEGIN PROLOGUE R9GMIT C***SUBSIDIARY C***PURPOSE Compute Tricomi's incomplete Gamma function for small C arguments. C***LIBRARY SLATEC (FNLIB) C***CATEGORY C7E C***TYPE SINGLE PRECISION (R9GMIT-S, D9GMIT-D) C***KEYWORDS COMPLEMENTARY INCOMPLETE GAMMA FUNCTION, FNLIB, SMALL X, C SPECIAL FUNCTIONS, TRICOMI C***AUTHOR Fullerton, W., (LANL) C***DESCRIPTION C C Compute Tricomi's incomplete gamma function for small X. C C***REFERENCES (NONE) C***ROUTINES CALLED ALNGAM, R1MACH, XERMSG C***REVISION HISTORY (YYMMDD) C 770701 DATE WRITTEN C 890531 Changed all specific intrinsics to generic. (WRB) C 890531 REVISION DATE from Version 3.2 C 891214 Prologue converted to Version 4.0 format. (BAB) C 900315 CALLs to XERROR changed to CALLs to XERMSG. (THJ) C 900720 Routine changed from user-callable to subsidiary. (WRB) C***END PROLOGUE R9GMIT SAVE EPS, BOT DATA EPS, BOT / 2*0.0 / C***FIRST EXECUTABLE STATEMENT R9GMIT IF (EPS.EQ.0.0) EPS = 0.5*R1MACH(3) IF (BOT.EQ.0.0) BOT = LOG(R1MACH(1)) C IF (X .LE. 0.0) CALL XERMSG ('SLATEC', 'R9GMIT', + 'X SHOULD BE GT 0', 1, 2) C MA = A + 0.5 IF (A.LT.0.0) MA = A - 0.5 AEPS = A - MA C AE = A IF (A.LT.(-0.5)) AE = AEPS C T = 1.0 TE = AE S = T DO 20 K=1,200 FK = K TE = -X*TE/FK T = TE/(AE+FK) S = S + T IF (ABS(T).LT.EPS*ABS(S)) GO TO 30 20 CONTINUE CALL XERMSG ('SLATEC', 'R9GMIT', + 'NO CONVERGENCE IN 200 TERMS OF TAYLOR-S SERIES', 2, 2) C 30 IF (A.GE.(-0.5)) ALGS = -ALGAP1 + LOG(S) IF (A.GE.(-0.5)) GO TO 60 C ALGS = -ALNGAM(1.0+AEPS) + LOG(S) S = 1.0 M = -MA - 1 IF (M.EQ.0) GO TO 50 T = 1.0 DO 40 K=1,M T = X*T/(AEPS-M-1+K) S = S + T IF (ABS(T).LT.EPS*ABS(S)) GO TO 50 40 CONTINUE C 50 R9GMIT = 0.0 ALGS = -MA*LOG(X) + ALGS IF (S.EQ.0.0 .OR. AEPS.EQ.0.0) GO TO 60 C SGNG2 = SGNGAM*SIGN(1.0,S) ALG2 = -X - ALGAP1 + LOG(ABS(S)) C IF (ALG2.GT.BOT) R9GMIT = SGNG2*EXP(ALG2) IF (ALGS.GT.BOT) R9GMIT = R9GMIT + EXP(ALGS) RETURN C 60 R9GMIT = EXP(ALGS) RETURN C END