/* Copyright (C) 2020 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_zech_mpoly.h" /* assuming that the exponents are valid and sorted, put the polynomial in canonical form i.e. 2*x^e + 3*x^e -> 5x^e 2*x^e - 2*x^e -> 0 */ void fq_zech_mpoly_combine_like_terms(fq_zech_mpoly_t A, const fq_zech_mpoly_ctx_t ctx) { slong in, out, N = mpoly_words_per_exp(A->bits, ctx->minfo); out = -WORD(1); for (in = WORD(0); in < A->length; in++) { FLINT_ASSERT(in > out); if (out >= WORD(0) && mpoly_monomial_equal(A->exps + N*out, A->exps + N*in, N)) { fq_zech_add(A->coeffs + out, A->coeffs + out, A->coeffs + in, ctx-> fqctx); } else { if (out < WORD(0) || !fq_zech_is_zero(A->coeffs + out, ctx->fqctx)) out++; if (out != in) { mpoly_monomial_set(A->exps + N*out, A->exps + N*in, N); fq_zech_swap(A->coeffs + out, A->coeffs + in, ctx-> fqctx); } } } if (out < WORD(0) || !fq_zech_is_zero(A->coeffs + out, ctx->fqctx)) out++; A->length = out; }