*DECK DCKDER SUBROUTINE DCKDER (M, N, X, FVEC, FJAC, LDFJAC, XP, FVECP, MODE, + ERR) C***BEGIN PROLOGUE DCKDER C***PURPOSE Check the gradients of M nonlinear functions in N C variables, evaluated at a point X, for consistency C with the functions themselves. C***LIBRARY SLATEC C***CATEGORY F3, G4C C***TYPE DOUBLE PRECISION (CHKDER-S, DCKDER-D) C***KEYWORDS GRADIENTS, JACOBIAN, MINPACK, NONLINEAR C***AUTHOR Hiebert, K. L. (SNLA) C***DESCRIPTION C C This subroutine is a companion routine to DNSQ and DNSQE. It may C be used to check the coding of the Jacobian calculation. C C SUBROUTINE DCKDER C C This subroutine checks the gradients of M nonlinear functions C in N variables, evaluated at a point X, for consistency with C the functions themselves. The user must call DCKDER twice, C first with MODE = 1 and then with MODE = 2. C C MODE = 1. On input, X must contain the point of evaluation. C On output, XP is set to a neighboring point. C C MODE = 2. On input, FVEC must contain the functions and the C rows of FJAC must contain the gradients C of the respective functions each evaluated C at X, and FVECP must contain the functions C evaluated at XP. C On output, ERR contains measures of correctness of C the respective gradients. C C The subroutine does not perform reliably if cancellation or C rounding errors cause a severe loss of significance in the C evaluation of a function. Therefore, none of the components C of X should be unusually small (in particular, zero) or any C other value which may cause loss of significance. C C The SUBROUTINE statement is C C SUBROUTINE DCKDER(M,N,X,FVEC,FJAC,LDFJAC,XP,FVECP,MODE,ERR) C C where C C M is a positive integer input variable set to the number C of functions. C C N is a positive integer input variable set to the number C of variables. C C X is an input array of length N. C C FVEC is an array of length M. On input when MODE = 2, C FVEC must contain the functions evaluated at X. C C FJAC is an M by N array. On input when MODE = 2, C the rows of FJAC must contain the gradients of C the respective functions evaluated at X. C C LDFJAC is a positive integer input parameter not less than M C which specifies the leading dimension of the array FJAC. C C XP is an array of length N. On output when MODE = 1, C XP is set to a neighboring point of X. C C FVECP is an array of length M. On input when MODE = 2, C FVECP must contain the functions evaluated at XP. C C MODE is an integer input variable set to 1 on the first call C and 2 on the second. Other values of MODE are equivalent C to MODE = 1. C C ERR is an array of length M. On output when MODE = 2, C ERR contains measures of correctness of the respective C gradients. If there is no severe loss of significance, C then if ERR(I) is 1.0 the I-th gradient is correct, C while if ERR(I) is 0.0 the I-th gradient is incorrect. C For values of ERR between 0.0 and 1.0, the categorization C is less certain. In general, a value of ERR(I) greater C than 0.5 indicates that the I-th gradient is probably C correct, while a value of ERR(I) less than 0.5 indicates C that the I-th gradient is probably incorrect. C C***REFERENCES M. J. D. Powell, A hybrid method for nonlinear equa- C tions. In Numerical Methods for Nonlinear Algebraic C Equations, P. Rabinowitz, Editor. Gordon and Breach, C 1988. C***ROUTINES CALLED D1MACH C***REVISION HISTORY (YYMMDD) C 800301 DATE WRITTEN C 890531 Changed all specific intrinsics to generic. (WRB) C 890831 Modified array declarations. (WRB) C 890831 REVISION DATE from Version 3.2 C 891214 Prologue converted to Version 4.0 format. (BAB) C 900326 Removed duplicate information from DESCRIPTION section. C (WRB) C 920501 Reformatted the REFERENCES section. (WRB) C***END PROLOGUE DCKDER