/usr/include/NTL/def

#ifndef NTL_config__H
#define NTL_config__H

/*************************************************************************

                          NTL Configuration File
                          ----------------------

This file may be modified prior to building NTL so as to specify
some basic configuration options, and to customize
how code is generated so as to improve performance.

The Basic Configuration Options must be set by hand.  If you use the
configuration wizard, then these flags should be set before
the installation process begins;  there values will be retained
by the wizard.

The Performance Options can be set either by hand, by editing this 
file, or (on most Unix platforms) can be set automatically using
the configuration wizard which runs when NTL is installed.

All NTL header files include this file.
By setting these flags here, instead of on the compiler command line,
it is easier to guarantee that NTL library and client code use
consistent settings.  


                                How to do it
                                ------------

To set a flag, just replace the pre-processor directive 
'if 0' by 'if 1' for that flag, which causes the appropriate macro 
to be defined.  Of course,  to unset a flag, just replace the 
'if 1' by an 'if 0'.

You can also do this more conveniently via the command line
using the configure script.


 *************************************************************************/



/*************************************************************************
 *
 * Basic Configuration Options
 *
 *************************************************************************/


 /* None of these flags are set by the configuration wizard;
  * they must be set by hand, before installation begins.
  */


#if 1
#define NTL_STD_CXX

/* 
 * Use this flag if you want to use the "Standard C++" version of NTL.
 * In this version, all of NTL is "wrapped" inside the namespace NTL,
 * and are no longer directly accessible---you must either use
 * explicit qualification, or using directives, or using declarations.
 * However, note that all names that begin with "NTL_" are macros,
 * and as such do not belong to any namespace.
 * Additionally, instead of including the standard headers
 * <stdlib.h>, <math.h>, and <iostream.h>, the standard headers
 * <cstdlib>, <cmath>, and <iostream> are included.
 * These "wrap" some (but not all) names in namespace std.
 * Also, the 'nothrow' version on the 'new' operator is used.
 *
 * To re-build after changing this flag: rm *.o; make ntl.a
 */

#endif

/* The following three flags may be used if you want to use some
 * of the features of Standard C++, but your compiler is deficient.
 * Instead of setting the NTL_STD_CXX, you can set any subset 
 * of the these three.  Setting all three of these flags is equivalent
 * to setting NTL_STD_CXX.  No harm is done if NTL_STD_CXX is set
 * and some of the following three flags are set.
 *
 * To re-build after changing any of these flags: rm *.o; make ntl.a
 */

#if 0
#define NTL_PSTD_NNS

/* Set if NTL library components are to be wrapped in namespace 'NTL'. */

#endif

#if 0
#define NTL_PSTD_NHF

/* Set if you want to use the new header files <cstdlib>, <cmath>, and 
 * <iostream>, instead of the traditional header files <stdlib.h>,
 * <math.h>, and <iostream.h>.
 * If new header files are used, then it is assumed that all standard 
 * library components are wrapped in namespace std; otherwise,
 * it is assumed that all standard library components are in the
 * global namespace.
 *
 * Also, when set, some internal NTL files use the header <fstream>
 * in place of <fstream.h>.                                                      
 */

#endif

#if 0
#define NTL_PSTD_NTN

/* Set if you want to use the 'nothrow' version of new. */

#endif


#if 0
#define NTL_GMP_LIP

/* 
 * Use this flag if you want to use GMP as the long integer package.
 * This can result in significantly faster code on some platforms.
 * It requires that the GMP package (version >= 3.1) has already been
 * installed.  You will also have to set the variables GMP_OPT_INCDIR,
 * GMP_OPT_LIBDIR, GMP_OPT_LIB in the makefile (these are set automatically
 * by the confiuration script when you pass the flag NTL_GMP_LIP=on
 * to that script.
 *
 * Beware that setting this flag can break some very old NTL codes.
 *
 * To re-build after changing this flag:
 *   rm *.o; make setup3; make ntl.a
 * You may also have to edit the makefile to modify the variables
 * GMP_OPT_INCDIR, GMP_OPT_LIBDIR, and GMP_OPT_LIB.
 */

#endif

#if 0
#define NTL_GF2X_LIB

/* 
 * Use this flag if you want to use the gf2x library for
 * faster GF2X arithmetic.
 * This can result in significantly faster code, especially
 * when working with polynomials of huge degree.
 * You will also have to set the variables GF2X_OPT_INCDIR,
 * GF2X_OPT_LIBDIR, GF2X_OPT_LIB in the makefile (these are set automatically
 * by the confiuration script when you pass the flag NTL_GF2X_LIB=on
 * to that script.
 *
 * To re-build after changing this flag:
 *   rm GF2X.o; GF2X1.o; make ntl.a
 * You may also have to edit the makefile to modify the variables
 * GF2X_OPT_INCDIR, GF2X_OPT_LIBDIR, and GF2X_OPT_LIB.
 */

#endif

#if 0
#define NTL_LONG_LONG_TYPE long long

/*
 *   If you set the flag NTL_LONG_LONG, then the value of
 *   NTL_LONG_LONG_TYPE will be used
 *   to declare 'double word' signed integer types.
 *   Irrelevant when NTL_GMP_LIP is set.
 *   If left undefined, some "ifdef magic" will attempt
 *   to find the best choice for your platform, depending
 *   on the compiler and wordsize.  On 32-bit machines,
 *   this is usually 'long long'.
 *
 *   To re-build after changing this flag: rm lip.o; make ntl.a
 */

#endif


#if 0
#define NTL_UNSIGNED_LONG_LONG_TYPE unsigned long long

/*
 *   If you set the flag NTL_SPMM_ULL, then the value of
 *   NTL_UNSIGNED_LONG_LONG_TYPE will be used
 *   to declare 'double word' unsigned integer types.
 *   If left undefined, some "ifdef magic" will attempt
 *   to find the best choice for your platform, depending
 *   on the compiler and wordsize.  On 32-bit machines,
 *   this is usually 'unsigned long long'.
 *
 *   To re-build after changing this flag: rm *.o; make ntl.a
 */

#endif


#if 0
#define NTL_CLEAN_INT

/*
 *   This will disallow the use of some non-standard integer arithmetic
 *   that may improve performance somewhat.
 *
 *   To re-build after changing this flag: rm *.o; make ntl.a
 */

#endif

#if 0
#define NTL_CLEAN_PTR

/*
 *   This will disallow the use of some non-standard pointer arithmetic
 *   that may improve performance somewhat.
 *
 *   To re-build after changing this flag: rm *.o; make ntl.a
 */

#endif

 
#if 0
#define NTL_RANGE_CHECK

/*
 *   This will generate vector subscript range-check code.
 *   Useful for debugging, but it slows things down of course.
 *
 *   To re-build after changing this flag: rm *.o; make ntl.a
 */

#endif





#if 0
#define NTL_NO_INIT_TRANS

/*
 *   Without this flag, NTL uses a special code sequence to avoid
 *   copying large objects in return statements.  However, if your
 *   compiler optimizes away the return of a *named* local object,
 *   this is not necessary, and setting this flag will result
 *   in *slightly* more compact and efficient code.  Although
 *   the emeriging C++ standard allows compilers to perform
 *   this optimization, I know of none that currently do.
 *   Most will avoid copying *temporary* objects in return statements,
 *   and NTL's default code sequence exploits this fact.
 *
 *   To re-build after changing this flag: rm *.o; make ntl.a
 */

#endif


#if 0
#define NTL_X86_FIX

/*
 *  Forces the "x86 floating point fix", overriding the default behavior.
 *  By default, NTL will apply the "fix" if it looks like it is
 *  necessary, and if knows how to fix it.
 *  The problem addressed here is that x86 processors sometimes
 *  run in a mode where FP registers have more precision than doubles.
 *  This will cause code in quad_float.c some trouble.
 *  NTL can normally correctly detect the problem, and fix it,
 *  so you shouldn't need to worry about this or the next flag.

 *  To re-build after changing this flag: rm quad_float.o; make ntl.a
 *  
 */

#elif 0
#define NTL_NO_X86_FIX
/*
 *  Forces no "x86 floating point fix", overriding the default behavior.

 *  To re-build after changing this flag: rm quad_float.o; make ntl.a
 */

#endif




/*************************************************************************
 *
 *  Performance Options
 *
 *************************************************************************/


/* One can choose one of three different stragtegies for long integer
 * arithmetic: the default, NTL_LONG_LONG, or NTL_AVOID_FLOAT.
 * The configuration wizard will choose among them.
 * 
 */

#if 0
#define NTL_LONG_LONG

/*
 *
 *   For platforms that support it, this flag can be set to cause
 *   the low-level multiplication code to use the type "long long",
 *   which may yield a significant performance gain,
 *   but on others, it can yield no improvement and can even
 *   slow things down.
 *
 *
 *   See below (NTL_LONG_LONG_TYPE) for how to use a type name 
 *   other than "long long".
 *
 *   If you set NTL_LONG_LONG, you might also want to set
 *   the flag NTL_TBL_REM (see below).
 *
 *   To re-build after changing this flag:  rm lip.o; make ntl.a
 */

#elif 0
#define NTL_AVOID_FLOAT

/*
 *
 *   On machines with slow floating point or---more comminly---slow int/float
 *   conversions, this flag can lead to faster code.
 *
 *   If you set NTL_AVOID_FLOAT, you should probably also
 *   set NTL_TBL_REM (see below).
 *
 *   To re-build after changing this flag:  rm lip.o; make ntl.a
 */

#endif


/* There are four strategies to implmement single-precision
 * modular multiplication with precondinition (see the MulModPrecon
 * function in the ZZ module): the default, NTL_SPMM_UL, and NTL_SPMM_ULL,
 * and NTL_SPMM_ASM.
 * This plays a crucial role in the  "small prime FFT" used to 
 * implement polynomial arithmetic, and in other CRT-based methods 
 * (such as linear  algebra over ZZ), as well as polynomial and matrix 
 * arithmetic over zz_p.  
 */


#if 0
#define NTL_SPMM_UL

/*    The default MulModPrecon implementation uses a mix of
 *    int and float arithmetic, which may be slow on certain machines.
 *    This flag causes an "all integer" implementation to be used.
 *    It is entirely portable.
 *    To re-build after changing this flag: rm *.o; make ntl.a
 */



#elif 0
#define NTL_SPMM_ULL

/*    Like this previous flag, this also causes an "all integer"
 *    implementation of MulModPrecon to be used.
 *    It us usually a faster implementation,
 *    but it is not enturely portable.
 *    It relies on double-word unsigned multiplication
 *    (see NTL_UNSIGNED_LONG_LONG_TYPE above). 
 *
 *    To re-build after changing this flag: rm *.o; make ntl.a
 */

#elif 0
#define NTL_SPMM_ASM

/*    Like this previous two flag, this also causes an "all integer"
 *    implementation of MulModPrecon to be used.
 *    It relies assembler code to do double-word unsigned multiplication.
 *    This is only supported on a select mechines under GCC. 
 *
 *    To re-build after changing this flag: rm *.o; make ntl.a
 */


#endif



/*
 * The following two flags provide additional control for how the 
 * FFT modulo single-precision primes is implemented.
 */

#if 0
#define NTL_FFT_BIGTAB

/*
 * Precomputed tables are used to store all the roots of unity
 * used in an FFT computation for the first NTL_FFT_BIGTAB_LIMIT
 * FFT primes (the latter is defined in FFT.h).  This can
 * lead to significant time savings but at the const of some space:
 * in the worst case, the precomputed tables will take of space
 * log_2(NTL_FFT_BUGTAB_LIMIT) * M, where M is roughly the maxmimum
 * space occupied by any one polynomial that was involved in an
 * FFT computation (this could be a polynomial over zz_p, ZZ_p, or ZZ).
 *
 *   To re-build after changing this flag: rm *.o; make ntl.a
 */

#endif


#if 0
#define  NTL_FFT_LAZYMUL

/*
 * This flag only has an effect when combined with the NTL_FFT_BIGTAB
 * flag, and either the NTL_SPMM_ULL or NTL_SPMM_ASM flags. 
 * When set, a "lazy multiplication" strategy due to David Harvey:
 * see his paper "FASTER ARITHMETIC FOR NUMBER-THEORETIC TRANSFORMS".
 *
 *   To re-build after changing this flag: rm *.o; make ntl.a
 */


#endif





/* The next five flags NTL_AVOID_BRANCHING, NTL_TBL_REM,
 * NTL_GF2X_ALTCODE, NTL_GF2X_ALTCODE1, and NTL_GF2X_NOINLINE
 * are also set by the configuration wizard.  
 */



#if 0
#define NTL_AVOID_BRANCHING

/*
 *   With this option, branches are replaced at several 
 *   key points with equivalent code using shifts and masks.
 *   It may speed things up on machines with 
 *   deep pipelines and high branch penalities.
 *   This flag mainly affects the implementation of the
 *   single-precision modular arithmetic routines.
 *
 *   To re-build after changing this flag: rm *.o; make ntl.a
 */

#endif



#if 0
#define NTL_TBL_REM

/*
 *
 *   With this flag, some divisions are avoided in the
 *   ZZ_pX multiplication routines.  If you use the NTL_AVOID_FLOAT 
 *   or NTL_LONG_LONG flags, then you should probably use this one too.
 *
 *   Irrelevent when NTL_GMP_LIP is set.
 *
 *   To re-build after changing this flag: 
 *      rm lip.o; make ntl.a
 */

#endif


#if 0
#define NTL_GF2X_ALTCODE

/*
 * With this option, the default strategy for implmenting low-level
 * GF2X multiplication is replaced with an alternative strategy.
 * This alternative strategy seems to work better on RISC machines
 * with deep pipelines and high branch penalties (like a powerpc),
 * but does no better (or even worse) on x86s.
 *
 * To re-build after changing this flag: rm GF2X.o; make ntl.a
 */

#elif 0
#define NTL_GF2X_ALTCODE1


/*
 * Yest another alternative strategy for implementing GF2X
 * multiplication.
 *
 * To re-build after changing this flag: rm GF2X.o; make ntl.a
 */


#endif

#if 0
#define NTL_GF2X_NOINLINE

/*
 * By default, the low-level GF2X multiplication routine in inlined.
 * This can potentially lead to some trouble on some platforms,
 * and you can override the default by setting this flag.
 *
 * To re-build after changing this flag: rm GF2X.o; make ntl.a
 */

#endif




/* The following flag is not set by the configuration wizard;  its use
 * is not generally recommended.
 */

 






#endif
libntl-dev 6.2.1-1 / usr / include / NTL / def_config.h
