/* glplib.h (miscellaneous library routines) */ /*********************************************************************** * This code is part of GLPK (GNU Linear Programming Kit). * * Copyright (C) 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, * 2009, 2010, 2011 Andrew Makhorin, Department for Applied Informatics, * Moscow Aviation Institute, Moscow, Russia. All rights reserved. * E-mail: . * * GLPK is free software: you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * GLPK is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public * License for more details. * * You should have received a copy of the GNU General Public License * along with GLPK. If not, see . ***********************************************************************/ #ifndef GLPLIB_H #define GLPLIB_H #define bigmul _glp_lib_bigmul void bigmul(int n, int m, unsigned short x[], unsigned short y[]); /* multiply unsigned integer numbers of arbitrary precision */ #define bigdiv _glp_lib_bigdiv void bigdiv(int n, int m, unsigned short x[], unsigned short y[]); /* divide unsigned integer numbers of arbitrary precision */ #ifndef GLP_LONG_DEFINED #define GLP_LONG_DEFINED typedef struct { int lo, hi; } glp_long; /* long integer data type */ #endif typedef struct { glp_long quot, rem; } glp_ldiv; /* result of long integer division */ #define xlset _glp_lib_xlset glp_long xlset(int x); /* expand integer to long integer */ #define xlneg _glp_lib_xlneg glp_long xlneg(glp_long x); /* negate long integer */ #define xladd _glp_lib_xladd glp_long xladd(glp_long x, glp_long y); /* add long integers */ #define xlsub _glp_lib_xlsub glp_long xlsub(glp_long x, glp_long y); /* subtract long integers */ #define xlcmp _glp_lib_xlcmp int xlcmp(glp_long x, glp_long y); /* compare long integers */ #define xlmul _glp_lib_xlmul glp_long xlmul(glp_long x, glp_long y); /* multiply long integers */ #define xldiv _glp_lib_xldiv glp_ldiv xldiv(glp_long x, glp_long y); /* divide long integers */ #define xltod _glp_lib_xltod double xltod(glp_long x); /* convert long integer to double */ #define xltoa _glp_lib_xltoa char *xltoa(glp_long x, char *s); /* convert long integer to character string */ #define str2int _glp_lib_str2int int str2int(const char *str, int *val); /* convert character string to value of int type */ #define str2num _glp_lib_str2num int str2num(const char *str, double *val); /* convert character string to value of double type */ #define strspx _glp_lib_strspx char *strspx(char *str); /* remove all spaces from character string */ #define strtrim _glp_lib_strtrim char *strtrim(char *str); /* remove trailing spaces from character string */ #define strrev _glp_lib_strrev char *strrev(char *s); /* reverse character string */ #define gcd _glp_lib_gcd int gcd(int x, int y); /* find greatest common divisor of two integers */ #define gcdn _glp_lib_gcdn int gcdn(int n, int x[]); /* find greatest common divisor of n integers */ #define lcm _glp_lib_lcm int lcm(int x, int y); /* find least common multiple of two integers */ #define lcmn _glp_lib_lcmn int lcmn(int n, int x[]); /* find least common multiple of n integers */ #define round2n _glp_lib_round2n double round2n(double x); /* round floating-point number to nearest power of two */ #define fp2rat _glp_lib_fp2rat int fp2rat(double x, double eps, double *p, double *q); /* convert floating-point number to rational number */ #define jday _glp_lib_jday int jday(int d, int m, int y); /* convert calendar date to Julian day number */ #define jdate _glp_lib_jdate int jdate(int j, int *d, int *m, int *y); /* convert Julian day number to calendar date */ #endif /* eof */