/* raise.c: bcmath library file. */ /* Copyright (C) 1991, 1992, 1993, 1994, 1997 Free Software Foundation, Inc. Copyright (C) 2000 Philip A. Nelson This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library 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 Lesser General Public License for more details. (LICENSE) You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to: The Free Software Foundation, Inc. 59 Temple Place, Suite 330 Boston, MA 02111-1307 USA. You may contact the author by: e-mail: philnelson@acm.org us-mail: Philip A. Nelson Computer Science Department, 9062 Western Washington University Bellingham, WA 98226-9062 *************************************************************************/ #include "bcmath.h" #include #include #include void bc_square_ex(bc_num n1, bc_num *result, size_t scale_min) { bc_num square_ex = bc_square(n1, scale_min); bc_free_num(result); *(result) = square_ex; } /* Raise "base" to the "exponent" power. The result is placed in RESULT. Maximum exponent is LONG_MAX. If a "exponent" is not an integer, only the integer part is used. */ bool bc_raise(bc_num base, long exponent, bc_num *result, size_t scale) { bc_num temp, power; size_t rscale; size_t pwrscale; size_t calcscale; bool is_neg; /* Special case if exponent is a zero. */ if (exponent == 0) { bc_free_num (result); *result = bc_copy_num(BCG(_one_)); return true; } /* Other initializations. */ if (exponent < 0) { is_neg = true; exponent = -exponent; rscale = scale; } else { is_neg = false; rscale = MIN (base->n_scale * exponent, MAX(scale, base->n_scale)); } /* Set initial value of temp. */ power = bc_copy_num(base); pwrscale = base->n_scale; while ((exponent & 1) == 0) { pwrscale = 2 * pwrscale; bc_square_ex(power, &power, pwrscale); exponent = exponent >> 1; } temp = bc_copy_num(power); calcscale = pwrscale; exponent = exponent >> 1; /* Do the calculation. */ while (exponent > 0) { pwrscale = 2 * pwrscale; bc_square_ex(power, &power, pwrscale); if ((exponent & 1) == 1) { calcscale = pwrscale + calcscale; bc_multiply_ex(temp, power, &temp, calcscale); } exponent = exponent >> 1; } /* Assign the value. */ if (is_neg) { if (bc_divide(BCG(_one_), temp, result, rscale) == false) { bc_free_num (&temp); bc_free_num (&power); return false; } bc_free_num (&temp); } else { bc_free_num (result); *result = temp; (*result)->n_scale = MIN(scale, (*result)->n_scale); } bc_free_num (&power); return true; } /* This is used internally by BCMath */ void bc_raise_bc_exponent(bc_num base, bc_num expo, bc_num *result, size_t scale) { /* Exponent must not have fractional part */ assert(expo->n_scale == 0); long exponent = bc_num2long(expo); /* Exponent must be properly convertable to long */ if (exponent == 0 && (expo->n_len > 1 || expo->n_value[0] != 0)) { assert(false && "Exponent is not well formed in internal call"); //assert(exponent != 0 || (expo->n_len == 0 && expo->n_value[0] == 0)); } //assert(exponent != 0 || (expo->n_len == 0 && expo->n_value[0] == 0)); bc_raise(base, exponent, result, scale); }