/* Copyright (C) 2018 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 "fmpz_mpoly.h" static int _fmpz_poly_pow_fmpz_is_not_feasible(const fmpz_poly_t b, const fmpz_t e) { if (b->length < 2) { if (b->length == 1) { return _fmpz_pow_fmpz_is_not_feasible(fmpz_bits(b->coeffs + 0), e); } else { return 0; } } else { ulong limit = (ulong)(WORD_MAX)/(ulong)(2*sizeof(fmpz)); return fmpz_cmp_ui(e, limit/(ulong)(b->length)) >= 0; } } static int _fmpz_poly_pow_ui_is_not_feasible(const fmpz_poly_t b, ulong e) { if (b->length < 2) { if (b->length == 1) { return _fmpz_pow_ui_is_not_feasible(fmpz_bits(b->coeffs + 0), e); } else { return 0; } } else { ulong limit = (ulong)(WORD_MAX)/(ulong)(2*sizeof(fmpz)); return e >= limit/(ulong)(b->length); } } int _fmpz_mpoly_compose_fmpz_poly_sp(fmpz_poly_t A, const fmpz_mpoly_t B, fmpz_poly_struct * const * C, const fmpz_mpoly_ctx_t ctx) { int success = 1; flint_bitcnt_t bits = B->bits; slong i, j, k, N, nvars = ctx->minfo->nvars; slong entries, k_len, shift, off; slong Blen = B->length; const fmpz * Bcoeff = B->coeffs; const ulong * Bexp = B->exps; fmpz * degrees; slong * offs; ulong * masks; fmpz_poly_struct * powers; fmpz_poly_t t, t2; TMP_INIT; FLINT_ASSERT(Blen != 0); TMP_START; degrees = TMP_ARRAY_ALLOC(nvars, slong); mpoly_degrees_si(degrees, Bexp, Blen, bits, ctx->minfo); /* compute how many masks are needed */ entries = 0; for (i = 0; i < nvars; i++) { if (_fmpz_poly_pow_ui_is_not_feasible(C[i], degrees[i])) { success = 0; goto cleanup_degrees; } entries += FLINT_BIT_COUNT(degrees[i]); } offs = TMP_ARRAY_ALLOC(entries, slong); masks = TMP_ARRAY_ALLOC(entries, ulong); powers = TMP_ARRAY_ALLOC(entries, fmpz_poly_struct); N = mpoly_words_per_exp(bits, ctx->minfo); /* store bit masks for each power of two of the non-main variables */ k = 0; for (i = 0; i < nvars; i++) { flint_bitcnt_t varibits = FLINT_BIT_COUNT(degrees[i]); mpoly_gen_offset_shift_sp(&off, &shift, i, bits, ctx->minfo); for (j = 0; j < varibits; j++) { offs[k] = off; masks[k] = UWORD(1) << (shift + j); fmpz_poly_init(powers + k); if (j == 0) fmpz_poly_set(powers + k, C[i]); else fmpz_poly_mul(powers + k, powers + k - 1, powers + k - 1); k++; } } k_len = k; FLINT_ASSERT(k_len == entries); /* accumulate answer */ fmpz_poly_zero(A); fmpz_poly_init(t); fmpz_poly_init(t2); for (i = 0; i < Blen; i++) { fmpz_poly_set_fmpz(t, Bcoeff + i); for (k = 0; k < k_len; k++) { if ((Bexp[N*i + offs[k]] & masks[k]) != WORD(0)) { fmpz_poly_mul(t2, t, powers + k); fmpz_poly_swap(t, t2); } } fmpz_poly_add(A, A, t); } fmpz_poly_clear(t); fmpz_poly_clear(t2); for (k = 0; k < k_len; k++) fmpz_poly_clear(powers + k); cleanup_degrees: TMP_END; return success; } int _fmpz_mpoly_compose_fmpz_poly_mp(fmpz_poly_t A, const fmpz_mpoly_t B, fmpz_poly_struct * const * C, const fmpz_mpoly_ctx_t ctx) { int success = 1; flint_bitcnt_t bits = B->bits; ulong l; slong i, k, N, nvars = ctx->minfo->nvars; slong entries, k_len, off; slong Blen = B->length; fmpz * Bcoeff = B->coeffs; ulong * Bexp = B->exps; fmpz * degrees; slong * offs; ulong * masks; fmpz_poly_struct * powers; fmpz_poly_t t, t2; TMP_INIT; FLINT_ASSERT(Blen > 0); TMP_START; degrees = TMP_ARRAY_ALLOC(nvars, fmpz); for (i = 0; i < nvars; i++) fmpz_init(degrees + i); mpoly_degrees_ffmpz(degrees, Bexp, Blen, bits, ctx->minfo); /* compute how many masks are needed */ entries = 0; for (i = 0; i < nvars; i++) { if (_fmpz_poly_pow_fmpz_is_not_feasible(C[i], degrees + i)) { success = 0; goto cleanup_degrees; } entries += fmpz_bits(degrees + i); } offs = TMP_ARRAY_ALLOC(entries, slong); masks = TMP_ARRAY_ALLOC(entries, ulong); powers = TMP_ARRAY_ALLOC(entries, fmpz_poly_struct); N = mpoly_words_per_exp(bits, ctx->minfo); /* store bit masks for each power of two of variables */ k = 0; for (i = 0; i < nvars; i++) { flint_bitcnt_t varibits = fmpz_bits(degrees + i); off = mpoly_gen_offset_mp(i, bits, ctx->minfo); for (l = 0; l < varibits; l++) { offs[k] = off + (l / FLINT_BITS); masks[k] = UWORD(1) << (l % FLINT_BITS); fmpz_poly_init(powers + k); if (l == 0) fmpz_poly_set(powers + k, C[i]); else fmpz_poly_mul(powers + k, powers + k - 1, powers + k - 1); k++; } } k_len = k; FLINT_ASSERT(k_len == entries); /* accumulate answer */ fmpz_poly_zero(A); fmpz_poly_init(t); fmpz_poly_init(t2); for (i = 0; i < Blen; i++) { fmpz_poly_set_fmpz(t, Bcoeff + i); for (k = 0; k < k_len; k++) { if ((Bexp[N*i + offs[k]] & masks[k]) != WORD(0)) { fmpz_poly_mul(t2, t, powers + k); fmpz_poly_swap(t, t2); } } fmpz_poly_add(A, A, t); } fmpz_poly_clear(t); fmpz_poly_clear(t2); for (k = 0; k < k_len; k++) fmpz_poly_clear(powers + k); cleanup_degrees: for (i = 0; i < nvars; i++) fmpz_clear(degrees + i); TMP_END; return success; } int fmpz_mpoly_compose_fmpz_poly(fmpz_poly_t A, const fmpz_mpoly_t B, fmpz_poly_struct * const * C, const fmpz_mpoly_ctx_t ctx) { if (B->length == 0) { fmpz_poly_zero(A); return 1; } if (B->bits <= FLINT_BITS) { return _fmpz_mpoly_compose_fmpz_poly_sp(A, B, C, ctx); } else { return _fmpz_mpoly_compose_fmpz_poly_mp(A, B, C, ctx); } }