/* Copyright (C) 2019 Daniel Schultz 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 . */ #include "fq_nmod_mpoly.h" slong _fq_nmod_mpoly_sub( mp_limb_t * Acoeffs, ulong * Aexps, mp_limb_t * Bcoeffs, const ulong * Bexps, slong Blen, mp_limb_t * Ccoeffs, const ulong * Cexps, slong Clen, slong N, const ulong * cmpmask, const fq_nmod_ctx_t fqctx) { slong d = fq_nmod_ctx_degree(fqctx); nmod_t mod = fq_nmod_ctx_mod(fqctx); slong i = 0, j = 0, k = 0; while (i < Blen && j < Clen) { int cmp = mpoly_monomial_cmp(Bexps + N*i, Cexps + N*j, N, cmpmask); if (cmp > 0) { mpoly_monomial_set(Aexps + N*k, Bexps + N*i, N); _n_fq_set(Acoeffs + d*k, Bcoeffs + d*i, d); i++; } else if (cmp == 0) { mpoly_monomial_set(Aexps + N*k, Bexps + N*i, N); _n_fq_sub(Acoeffs + d*k, Bcoeffs + d*i, Ccoeffs + d*j, d, mod); k -= _n_fq_is_zero(Acoeffs + d*k, d); i++; j++; } else { mpoly_monomial_set(Aexps + N*k, Cexps + N*j, N); _n_fq_neg(Acoeffs + d*k, Ccoeffs + d*j, d, mod); j++; } k++; } while (i < Blen) { mpoly_monomial_set(Aexps + k*N, Bexps + i*N, N); _n_fq_set(Acoeffs + d*k, Bcoeffs + d*i, d); i++; k++; } while (j < Clen) { mpoly_monomial_set(Aexps + k*N, Cexps + j*N, N); _n_fq_neg(Acoeffs + d*k, Ccoeffs + d*j, d, mod); j++; k++; } return k; } void fq_nmod_mpoly_sub( fq_nmod_mpoly_t A, const fq_nmod_mpoly_t B, const fq_nmod_mpoly_t C, const fq_nmod_mpoly_ctx_t ctx) { slong Alen; ulong * Bexps = B->exps, * Cexps = C->exps; flint_bitcnt_t Abits = FLINT_MAX(B->bits, C->bits); slong N = mpoly_words_per_exp(Abits, ctx->minfo); ulong * cmpmask; int freeBexps = 0, freeCexps = 0; TMP_INIT; if (fq_nmod_mpoly_is_zero(B, ctx)) { fq_nmod_mpoly_neg(A, C, ctx); return; } else if (fq_nmod_mpoly_is_zero(C, ctx)) { fq_nmod_mpoly_set(A, B, ctx); return; } TMP_START; cmpmask = (ulong*) TMP_ALLOC(N*sizeof(ulong)); mpoly_get_cmpmask(cmpmask, N, Abits, ctx->minfo); if (Abits > B->bits) { freeBexps = 1; Bexps = (ulong *) flint_malloc(N*B->length*sizeof(ulong)); mpoly_repack_monomials(Bexps, Abits, B->exps, B->bits, B->length, ctx->minfo); } if (Abits > C->bits) { freeCexps = 1; Cexps = (ulong *) flint_malloc(N*C->length*sizeof(ulong)); mpoly_repack_monomials(Cexps, Abits, C->exps, C->bits, C->length, ctx->minfo); } if (A == B || A == C) { fq_nmod_mpoly_t T; fq_nmod_mpoly_init(T, ctx); fq_nmod_mpoly_fit_length_reset_bits(T, B->length + C->length, Abits, ctx); Alen = _fq_nmod_mpoly_sub(T->coeffs, T->exps, B->coeffs, Bexps, B->length, C->coeffs, Cexps, C->length, N, cmpmask, ctx->fqctx); fq_nmod_mpoly_swap(T, A, ctx); fq_nmod_mpoly_clear(T, ctx); } else { fq_nmod_mpoly_fit_length_reset_bits(A, B->length + C->length, Abits, ctx); Alen = _fq_nmod_mpoly_sub(A->coeffs, A->exps, B->coeffs, Bexps, B->length, C->coeffs, Cexps, C->length, N, cmpmask, ctx->fqctx); } _fq_nmod_mpoly_set_length(A, Alen, ctx); if (freeBexps) flint_free(Bexps); if (freeCexps) flint_free(Cexps); TMP_END; }