In addition, NAG recommends that before calling any library routine you should read the following reference material (see Section 5):
(a) Essential Introduction
(b) Chapter Introduction
(c) Function Document
Assuming that the NAG C Library has been installed to the default location, you may compile and link on the command line in the following manner.
bcc32 -tWM -I"C:\Program Files\NAG\CL07\CLW3207DEL\Include" -L"C:\Program Files\NAG\CL07\CLW3207DEL\Lib" driver.c nagcsmt.libwhere driver.c is your application program.
The "-tWM" option should be used to specify multi-threaded code generation.
Alternatively, if you wish to link to the single-threaded version of the NAG C Library compile and link on the command line in the following manner.
bcc32 -tWM- -I"C:\Program Files\NAG\CL07\CLW3207DEL\Include" -L"C:\Program Files\NAG\CL07\CLW3207DEL\Lib" driver.c nagcsml.libThe "-tWM-" option should be used to specify single-threaded code generation.
The files bcc32.cfg and tlink32.cfg are provided to simplify command line compilation and linking. These files should be copied to the directory where you are working and eliminate the need to specify the -I and -L option on the command line.
A number of sample projects for Borland C++ Builder 5 is provided. The location of the NAG C Library and its include files may need to be altered if installation is not made to the default location. These projects can also be used from Borland C++ Builder 6 in which case they will automatically be converted.
If installation is not made to the default place, this script requires the setting of the environment variable NAGCLWDE, which should be set to the root directory of the NAG materials.
The example program concerned is specified by the argument to nagex, e.g.
nagex c06eacwill copy the example program and its data into the files c06eafe.c and c06eafe.d in the current directory and process them to produce the example program results, which are placed in file c06eace.res in the current folder.
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 the distributed example programs are those used in this implementation and may not correspond exactly with the programs published in the manual. The distributed example programs should be used in preference wherever possible.
The distributed example results are those obtained with the multi-threaded library using Borland C++ Builder 5. Running the examples with the single-threaded library or another compiler version may give slightly different results.
s10aac E(1) = 1.8500e+1 s10abc fail.code = NE_REAL_ARG_GT if X > 7.080e+2 s10acc fail.code = NE_REAL_ARG_GT if X > 7.080e+2 s13aac X(hi) = 7.083e+2 s13acc X(hi) = 4.5e+15 s13adc X(hi) = 4.5e+15 s14aac fail.code = NE_REAL_ARG_GT if X > 1.70e+2 fail.code = NE_REAL_ARG_LT if X < -1.70e+2 fail.code = NE_REAL_ARG_TOO_SMALL if ABS(X) < 2.23e-308 s14abc fail.code = NE_REAL_ARG_GT if X > 2.55e+305 s17acc fail.code = NE_REAL_ARG_GT if X > 4.5e+15 s17adc fail.code = NE_REAL_ARG_GT if X > 4.5e+15 fail.code = NE_REAL_ARG_TOO_SMALL if X <= 2.23e-308 s17aec fail.code = NE_REAL_ARG_GT if ABS(X) > 4.5e+15 s17afc fail.code = NE_REAL_ARG_GT if ABS(X) > 4.5e+15 s17agc fail.code = NE_REAL_ARG_GT if X > 1.038e+2 fail.code = NE_REAL_ARG_LT if X < -3.5e+10 s17ahc fail.code = NE_REAL_ARG_GT if X > 1.041e+2 fail.code = NE_REAL_ARG_LT if X < -3.5e+10 s17ajc fail.code = NE_REAL_ARG_GT if X > 1.041e+2 fail.code = NE_REAL_ARG_LT if X < -1.8e+9 s17akc fail.code = NE_REAL_ARG_GT if X > 1.041e+2 fail.code = NE_REAL_ARG_LT if X < -1.8e+9 s18adc fail.code = NE_REAL_ARG_TOO_SMALL if 0.0D+00 < X <= 2.23e-308 s18aec fail.code = NE_REAL_ARG_GT if ABS(X) > 7.116e+2 s18afc fail.code = NE_REAL_ARG_GT if ABS(X) > 7.116e+2 s18cdc fail.code = NE_REAL_ARG_TOO_SMALL if 0.0D+00 < X <= 2.23e-308 s19aac fail.code = NE_REAL_ARG_GT if ABS(X) >= 4.95000e+1 s19abc fail.code = NE_REAL_ARG_GT if ABS(X) >= 4.95000e+1 s19acc fail.code = NE_REAL_ARG_GT if X > 9.9726e+2 s19adc fail.code = NE_REAL_ARG_GT if X > 9.9726e+2 s21bcc fail.code = NE_REAL_ARG_LT if an argument < 1.579e-205 fail.code = NE_REAL_ARG_GE if an argument >= 3.773e+202 s21bdc fail.code = NE_REAL_ARG_LT if an argument < 2.820e-103 fail.code = NE_REAL_ARG_GT if an argument > 1.404e+102
X01AAC (pi) = 3.14159265358979323846e+00 X01ABC (gamma) = 0.5772156649015328606e+00
The basic parameters of the model
X02BHC = 2 X02BJC = 53 X02BKC = -1021 X02BLC = 1024 X02DJC = TRUEDerived parameters of the floating-point arithmetic
X02AJC = 0x3ca0040000000000 ( 1.11130722679765e-16 ) X02AKC = 0x0010000000000000 ( 2.22507385850721e-308 ) X02ALC = 0x7fefffffffffffff ( 1.79769313486231e+308 ) X02AMC = 0x001001bb0d6e2727 ( 2.22601401396686e-308 ) X02ANC = 0x001001bb0d6e2727 ( 2.22601401396686e-308 )Parameters of other aspects of the computing environment
X02AHC = 0x4330000000000000 ( 4.50359962737049e+15 ) X02BBC = 2147483647 X02BEC = 15 X02DAC = FALSE
A full on-line version of the NAG C Library Manual is supplied in the form of Portable Document Format (PDF) files, with an HTML index, in the manual directory. The introductory material is also provided as HTML files in the manual directory.
A main index file has been provided (manual/html/mark07.html) which contains a fully linked contents document pointing to all the available PDF (and where available HTML) files. Use your HTML browser to navigate from here.
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