NAG recommends that you read the following minimum reference material before calling any library routine:
(a) Essential Introduction
(b) Chapter Introduction
(c) Routine Document
(d) Implementation-specific Users' Note
Items (a), (b) and (c) are included in the NAG Fortran Library Manual; items (a) and (b) are also included in the NAG Fortran Library Introductory Guide; item (d) is this document which is provided in HTML form. Item (a) is also supplied in plain text form.
Assuming that libnag.a has been installed in a directory in the search path of the linker, such as /usr/lib, then you may link to the NAG Fortran Library in the following manner:
f77 -dalign -xtypemap=real:64,double:128,integer:64 driver.f -lnagwhere driver.f is your application program. The -mt flag should be added if developing a multi-threaded application:
f77 -dalign -xtypemap=real:64,double:128,integer:64 -mt driver.f -lnag
N.B. The -dalign and -xtypemap=real:64,double:128,integer:64 flags MUST be used when compiling programs that are to be linked to the NAG Fortran Library.
nagexample c06eaewill copy the example program and its data into the files c06eaee.f and c06eaee.d in the current directory and process them to produce the example program results.
In the NAG Fortran Library Manual, routine documents that have been typeset since Mark 12 present the example programs in a generalised form, using bold italicised terms as described in Section 3.3.
In other routine documents, the example programs are in single precision. All printed example programs show routine names ending in F not E (see Section 3.6).
The example programs supplied to a site in machine-readable form have been modified as necessary so that they are suitable for immediate execution. Note that all the distributed example programs have been revised and do not correspond exactly with the programs published in the manual, unless the documents have been recently typeset. The distributed example programs should be used in preference wherever possible.
real - REAL (REAL*8) basic precision - 64-bit single precision complex - COMPLEX*16 additional precision - 128-bit double precision machine precision - the machine precision, see the value returned by X02AJE in Section 4
Thus a parameter described as real should be declared as REAL in your program. If a routine accumulates an inner product in additional precision, it is using double precision.
In routine documents that have been newly typeset since Mark 12 additional bold italicised terms are used in the published example programs and they must be interpreted as follows:
real as an intrinsic function name - REAL imag - AIMAG cmplx - CMPLX conjg - CONJG e in constants, e.g. 1.0e-4 - E, e.g. 1.0E-4 e in formats, e.g. e12.4 - E, e.g. E12.4
All references to routines in Chapter F07 - Linear Equations (LAPACK) and
Chapter F08 - Least-squares and Eigenvalue Problems (LAPACK) use the LAPACK
name, not the NAG F07/F08 name. The LAPACK name is precision dependent, and
hence the name appears in a bold italicised typeface.
For example:
sgetrf refers to the LAPACK routine name - SGETRF cpotrs - CPOTRS
See Section 5 for additional documentation available from NAG.
A02AAF denotes the double precision version A02AAE denotes the single precision version
The names of auxiliary routines have also been modified by interchanging the first three and the last three characters, e.g. C02AFZ has been changed to AFZC02.
In the NAG Fortran Library Manual all library routine names end in F. Therefore, when using the manual in conjunction with this single precision implementation, all such names must be understood to refer to the single precision versions with names ending in E. Some routines in the Library require users to specify particular auxiliary routines. Again, when using this implementation it is necessary to specify the amended names.
The names of COMMON blocks have also been modified, e.g. AC02AF is renamed AFC02A. This is unlikely to affect the user.
S07AAE F(1) = 1.0E+13 F(2) = 1.0E-14 S10AAE E(1) = 1.8500E+1 S10ABE E(1) = 7.080E+2 S10ACE E(1) = 7.080E+2 S13AAE x(hi) = 7.083E+2 S13ACE x(hi) = 1.0E+16 S13ADE x(hi) = 1.0E+17 S14AAE IFAIL = 1 if X > 1.70E+2 IFAIL = 2 if X < -1.70E+2 IFAIL = 3 if abs(X) < 2.23E-308 S14ABE IFAIL = 2 if X > 2.55E+305 S15ADE x(hi) = 2.66E+1 x(low) = -6.25E+0 S15AEE x(hi) = 6.25E+0 S17ACE IFAIL = 1 if X > 1.0E+16 S17ADE IFAIL = 1 if X > 1.0E+16 IFAIL = 3 if 0.0D+00 < X <= 2.23E-308 S17AEE IFAIL = 1 if abs(X) > 1.0E+16 S17AFE IFAIL = 1 if abs(X) > 1.0E+16 S17AGE IFAIL = 1 if X > 1.038E+2 IFAIL = 2 if X < -5.6E+10 S17AHE IFAIL = 1 if X > 1.041E+2 IFAIL = 2 if X < -5.6E+10 S17AJE IFAIL = 1 if X > 1.041E+2 IFAIL = 2 if X < -1.8E+9 S17AKE IFAIL = 1 if X > 1.041E+2 IFAIL = 2 if X < -1.8E+9 S17DCE IFAIL = 2 if abs (Z) < 3.93E-305 IFAIL = 4 if abs (Z) or FNU+N-1 > 6.71E+7 IFAIL = 5 if abs (Z) or FNU+N-1 > 4.50E+15 S17DEE IFAIL = 2 if imag (Z) > 7.00E+2 IFAIL = 3 if abs (Z) or FNU+N-1 > 6.71E+7 IFAIL = 4 if abs (Z) or FNU+N-1 > 4.50E+15 S17DGE IFAIL = 3 if abs (Z) > 1.65E+5 IFAIL = 4 if abs (Z) > 2.72E+10 S17DHE IFAIL = 3 if abs (Z) > 1.65E+5 IFAIL = 4 if abs (Z) > 2.72E+10 S17DLE IFAIL = 2 if abs (Z) < 3.93E-305 IFAIL = 4 if abs (Z) or FNU+N-1 > 6.71E+7 IFAIL = 5 if abs (Z) or FNU+N-1 > 4.50E+15 S18ADE IFAIL = 2 if 0.0D+00 < X <= 2.23E-308 S18AEE IFAIL = 1 if abs(X) > 7.116E+2 S18AFE IFAIL = 1 if abs(X) > 7.116E+2 S18CDE IFAIL = 2 if 0.0D+00 < X <= 2.23E-308 S18DCE IFAIL = 2 if abs (Z) < 3.93E-305 IFAIL = 4 if abs (Z) or FNU+N-1 > 6.71E+7 IFAIL = 5 if abs (Z) or FNU+N-1 > 4.50E+15 S18DEE IFAIL = 2 if real (Z) > 7.00E+2 IFAIL = 3 if abs (Z) or FNU+N-1 > 6.71E+7 IFAIL = 4 if abs (Z) or FNU+N-1 > 4.50E+15 S19AAE IFAIL = 1 if abs(x) >= 4.95000E+1 S19ABE IFAIL = 1 if abs(x) >= 4.95000E+1 S19ACE IFAIL = 1 if X > 9.9726E+2 S19ADE IFAIL = 1 if X > 9.9726E+2 S21BCE IFAIL = 3 if an argument < 1.579E-205 IFAIL = 4 if an argument >= 3.774E+202 S21BDE IFAIL = 3 if an argument < 2.820E-103 IFAIL = 4 if an argument >= 1.404E+102
X01AAE (PI) = 3.1415926535897932D+00 X01ABE (GAMMA) = 0.5772156649015329D+00
The basic parameters of the model
X02BHE = 2 X02BJE = 53 X02BKE = -1021 X02BLE = 1024 X02DJE = .TRUE.Derived parameters of the floating-point arithmetic
X02AJE = Z'3CA0000000000001' ( 1.11022302462516E-16 ) X02AKE = Z'0010000000000000' ( 2.22507385850720E-308 ) X02ALE = Z'7FEFFFFFFFFFFFFF' ( 1.79769313486232E+308 ) X02AME = Z'0010000000000000' ( 2.22507385850720E-308 ) X02ANE = Z'0010000000000000' ( 2.22507385850720E-308 )Parameters of other aspects of the computing environment
X02AHE = Z'4950000000000000' ( 1.42724769270596E+45 ) X02BBE = 9223372036854775807 X02BEE = 15 X02DAE = .FALSE.
This implementation does not support opening a file for appending, so X04ACE will return IFAIL = 4 if called with MODE = 2.
On-line documentation is bundled with this implementation. Please see the Readme file on the distribution medium for further information.
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