/* Copyright (C) 2008, 2009 William Hart Copyright (C) 2010, 2011 Sebastian Pancratz Copyright (C) 2013 Mike Hansen This file is part of FLINT. FLINT is free software: you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License (LGPL) as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. See . */ #ifdef T #include "templates.h" static void __TEMPLATE(T, poly_divrem_divconquer) (TEMPLATE(T, struct) * Q, TEMPLATE(T, struct) * R, const TEMPLATE(T, struct) * A, slong lenA, const TEMPLATE(T, struct) * B, slong lenB, const TEMPLATE(T, t) invB, const TEMPLATE(T, ctx_t) ctx) { if (lenA < 2 * lenB - 1) { /* Convert unbalanced division into a 2 n1 - 1 by n1 division */ const slong n1 = lenA - lenB + 1; const slong n2 = lenB - n1; const TEMPLATE(T, struct) * p1 = A + n2; const TEMPLATE(T, struct) * d1 = B + n2; const TEMPLATE(T, struct) * d2 = B; TEMPLATE(T, struct) * W = _TEMPLATE(T, vec_init) ((2 * n1 - 1) + lenB - 1, ctx); TEMPLATE(T, struct) * d1q1 = R + n2; TEMPLATE(T, struct) * d2q1 = W + (2 * n1 - 1); _TEMPLATE(T, poly_divrem_divconquer_recursive) (Q, d1q1, W, p1, d1, n1, invB, ctx); /* Compute d2q1 = Q d2, of length lenB - 1 */ if (n1 >= n2) _TEMPLATE(T, poly_mul) (d2q1, Q, n1, d2, n2, ctx); else _TEMPLATE(T, poly_mul) (d2q1, d2, n2, Q, n1, ctx); /* Compute BQ = d1q1 * x^n1 + d2q1, of length lenB - 1; then compute R = A - BQ */ _TEMPLATE(T, vec_swap) (R, d2q1, n2, ctx); _TEMPLATE(T, poly_add) (R + n2, R + n2, n1 - 1, d2q1 + n2, n1 - 1, ctx); _TEMPLATE(T, poly_sub) (R, A, lenA, R, lenA, ctx); _TEMPLATE(T, vec_clear) (W, (2 * n1 - 1) + lenB - 1, ctx); } else /* lenA = 2 * lenB - 1 */ { TEMPLATE(T, struct) * W = _TEMPLATE(T, vec_init) (lenA, ctx); _TEMPLATE(T, poly_divrem_divconquer_recursive) (Q, R, W, A, B, lenB, invB, ctx); _TEMPLATE(T, poly_sub) (R, A, lenB - 1, R, lenB - 1, ctx); _TEMPLATE(T, vec_clear) (W, lenA, ctx); } } void _TEMPLATE(T, poly_divrem_divconquer) (TEMPLATE(T, struct) * Q, TEMPLATE(T, struct) * R, const TEMPLATE(T, struct) * A, slong lenA, const TEMPLATE(T, struct) * B, slong lenB, const TEMPLATE(T, t) invB, const TEMPLATE(T, ctx_t) ctx) { if (lenA <= 2 * lenB - 1) { __TEMPLATE(T, poly_divrem_divconquer) (Q, R, A, lenA, B, lenB, invB, ctx); } else /* lenA > 2 * lenB - 1 */ { slong shift, n = 2 * lenB - 1; TEMPLATE(T, struct) * QB, *W; _TEMPLATE(T, vec_set) (R, A, lenA, ctx); W = _TEMPLATE(T, vec_init) (2 * n, ctx); QB = W + n; while (lenA >= n) { shift = lenA - n; _TEMPLATE(T, poly_divrem_divconquer_recursive) (Q + shift, QB, W, R + shift, B, lenB, invB, ctx); _TEMPLATE(T, poly_sub) (R + shift, R + shift, n, QB, n, ctx); lenA -= lenB; } if (lenA >= lenB) { __TEMPLATE(T, poly_divrem_divconquer) (Q, W, R, lenA, B, lenB, invB, ctx); _TEMPLATE(T, vec_swap) (W, R, lenA, ctx); } _TEMPLATE(T, vec_clear) (W, 2 * n, ctx); } } void TEMPLATE(T, poly_divrem_divconquer) (TEMPLATE(T, poly_t) Q, TEMPLATE(T, poly_t) R, const TEMPLATE(T, poly_t) A, const TEMPLATE(T, poly_t) B, const TEMPLATE(T, ctx_t) ctx) { const slong lenA = A->length; const slong lenB = B->length; const slong lenQ = lenA - lenB + 1; TEMPLATE(T, struct) * q, *r; TEMPLATE(T, t) invB; if (lenA < lenB) { TEMPLATE(T, poly_set) (R, A, ctx); TEMPLATE(T, poly_zero) (Q, ctx); return; } TEMPLATE(T, init) (invB, ctx); TEMPLATE(T, inv) (invB, TEMPLATE(T, poly_lead) (B, ctx), ctx); if (Q == A || Q == B) { q = _TEMPLATE(T, vec_init) (lenQ, ctx); } else { TEMPLATE(T, poly_fit_length) (Q, lenQ, ctx); q = Q->coeffs; } if (R == A || R == B) { r = _TEMPLATE(T, vec_init) (lenA, ctx); } else { TEMPLATE(T, poly_fit_length) (R, lenA, ctx); r = R->coeffs; } _TEMPLATE(T, poly_divrem_divconquer) (q, r, A->coeffs, lenA, B->coeffs, lenB, invB, ctx); if (Q == A || Q == B) { _TEMPLATE(T, vec_clear) (Q->coeffs, Q->alloc, ctx); Q->coeffs = q; Q->alloc = lenQ; Q->length = lenQ; } else { _TEMPLATE(T, poly_set_length) (Q, lenQ, ctx); } if (R == A || R == B) { _TEMPLATE(T, vec_clear) (R->coeffs, R->alloc, ctx); R->coeffs = r; R->alloc = lenA; R->length = lenA; } _TEMPLATE(T, poly_set_length) (R, lenB - 1, ctx); _TEMPLATE(T, poly_normalise) (R, ctx); TEMPLATE(T, clear) (invB, ctx); } #endif