/************************************************************************* * * * YAP Prolog * * * * Yap Prolog was developed at NCCUP - Universidade do Porto * * * * Copyright L.Damas, V.S.Costa and Universidade do Porto 1985-1997 * * * ************************************************************************** * * * File: gmp_support.c * * Last rev: * * mods: * * comments: bignum code * * * *************************************************************************/ #include "Yap.h" #include "Yatom.h" #include "Heap.h" #include "eval.h" #if USE_GMP static inline Term MkBigAndClose(MP_INT *new) { Term t = Yap_MkBigIntTerm(new); mpz_clear(new); if (t == TermNil) { Yap_Error(RESOURCE_ERROR_STACK, t, ">>/2"); P = (yamop *)FAILCODE; RERROR(); } return t; } /* add i + j using temporary bigint new */ Term Yap_gmp_add_ints(Int i, Int j) { MP_INT new; mpz_init_set_si(&new,i); if (j > 0) { mpz_add_ui(&new, &new, j); } else { if (j-1 > 0) { /* negative overflow */ mpz_sub_ui(&new, &new, -(j+1)); mpz_sub_ui(&new, &new, 1); } else { mpz_sub_ui(&new, &new, -j); } } return MkBigAndClose(&new); } Term Yap_gmp_sub_ints(Int i, Int j) { MP_INT new; Term t; mpz_init_set_si(&new,i); if (j > 0) { mpz_sub_ui(&new, &new, j); } else { if (j-1 > 0) { /* negative overflow */ mpz_add_ui(&new, &new, -(j+1)); mpz_add_ui(&new, &new, 1); } else { mpz_add_ui(&new, &new, -j); } } return MkBigAndClose(&new); t = Yap_MkBigIntTerm(&new); mpz_clear(&new); return t; } Term Yap_gmp_mul_ints(Int i, Int j) { MP_INT new; mpz_init_set_si(&new,i); mpz_mul_si(&new, &new, j); return MkBigAndClose(&new); } Term Yap_gmp_sll_ints(Int i, Int j) { MP_INT new; mpz_init_set_si(&new,i); mpz_mul_2exp(&new, &new, j); return MkBigAndClose(&new); } /* add i + b using temporary bigint new */ Term Yap_gmp_add_int_big(Int i, MP_INT *b) { MP_INT new; mpz_init_set_si(&new, i); mpz_add(&new, &new, b); return MkBigAndClose(&new); } /* sub i - b using temporary bigint new */ Term Yap_gmp_sub_int_big(Int i, MP_INT *b) { MP_INT new; mpz_init_set_si(&new, i); mpz_sub(&new, &new, b); return MkBigAndClose(&new); } /* add i + b using temporary bigint new */ Term Yap_gmp_mul_int_big(Int i, MP_INT *b) { MP_INT new; mpz_init_set_si(&new, i); mpz_mul(&new, &new, b); return MkBigAndClose(&new); } /* sub i - b using temporary bigint new */ Term Yap_gmp_sub_big_int(MP_INT *b, Int i) { MP_INT new; mpz_init_set_si(&new, i); mpz_neg(&new, &new); mpz_add(&new, &new, b); return MkBigAndClose(&new); } /* div i / b using temporary bigint new */ Term Yap_gmp_div_big_int(MP_INT *b, Int i) { MP_INT new; mpz_init_set(&new, b); if (yap_flags[INTEGER_ROUNDING_FLAG] == 0) { if (i > 0) { mpz_tdiv_q_ui(&new, &new, i); } else if (i == 0) { Yap_Error(EVALUATION_ERROR_ZERO_DIVISOR, MkIntTerm(0), "// /2"); return 0L; } else { /* we do not handle MIN_INT */ mpz_tdiv_q_ui(&new, &new, -i); mpz_neg(&new, &new); } } else { if (i > 0) { mpz_fdiv_q_ui(&new, &new, i); } else if (i == 0) { Yap_Error(EVALUATION_ERROR_ZERO_DIVISOR, MkIntTerm(0), "// /2"); return 0L; } else { /* we do not handle MIN_INT */ mpz_fdiv_q_ui(&new, &new, -i); mpz_neg(&new, &new); } } return MkBigAndClose(&new); } /* sub i - b using temporary bigint new */ Term Yap_gmp_and_int_big(Int i, MP_INT *b) { MP_INT new; mpz_init_set_si(&new, i); mpz_and(&new, &new, b); return MkBigAndClose(&new); } /* sub i - b using temporary bigint new */ Term Yap_gmp_ior_int_big(Int i, MP_INT *b) { MP_INT new; mpz_init_set_si(&new, i); mpz_ior(&new, &new, b); return MkBigAndClose(&new); } /* add i + b using temporary bigint new */ Term Yap_gmp_sll_big_int(MP_INT *b, Int i) { MP_INT new; if (i > 0) { mpz_init_set(&new, b); mpz_mul_2exp(&new, &new, i); } else if (i == 0) { mpz_init_set(&new, b); } else { mpz_init_set(&new, b); if (i == Int_MIN) { return 0L; } mpz_tdiv_q_2exp(&new, &new, -i); } return MkBigAndClose(&new); } Term Yap_gmp_add_big_big(MP_INT *b1, MP_INT *b2) { MP_INT new; mpz_init_set(&new, b1); mpz_add(&new, &new, b2); return MkBigAndClose(&new); } Term Yap_gmp_sub_big_big(MP_INT *b1, MP_INT *b2) { MP_INT new; mpz_init_set(&new, b1); mpz_sub(&new, &new, b2); return MkBigAndClose(&new); } Term Yap_gmp_mul_big_big(MP_INT *b1, MP_INT *b2) { MP_INT new; mpz_init_set(&new, b1); mpz_mul(&new, &new, b2); return MkBigAndClose(&new); } /* div i / b using temporary bigint new */ Term Yap_gmp_div_big_big(MP_INT *b1, MP_INT *b2) { MP_INT new; mpz_init_set(&new, b1); if (yap_flags[INTEGER_ROUNDING_FLAG] == 0) { mpz_tdiv_q(&new, &new, b2); } else { mpz_fdiv_q(&new, &new, b2); } return MkBigAndClose(&new); } Term Yap_gmp_and_big_big(MP_INT *b1, MP_INT *b2) { MP_INT new; mpz_init_set(&new, b1); mpz_and(&new, &new, b2); return MkBigAndClose(&new); } Term Yap_gmp_ior_big_big(MP_INT *b1, MP_INT *b2) { MP_INT new; mpz_init_set(&new, b1); mpz_ior(&new, &new, b2); return MkBigAndClose(&new); } Term Yap_gmp_add_float_big(Float d, MP_INT *b) { return MkFloatTerm(d+mpz_get_d(b)); } Term Yap_gmp_sub_float_big(Float d, MP_INT *b) { return MkFloatTerm(d-mpz_get_d(b)); } Term Yap_gmp_sub_big_float(MP_INT *b, Float d) { return MkFloatTerm(mpz_get_d(b)-d); } Term Yap_gmp_mul_float_big(Float d, MP_INT *b) { return MkFloatTerm(d*mpz_get_d(b)); } Term Yap_gmp_exp_ints(Int i1, Int i2) { MP_INT new; mpz_init_set_si(&new, i1); mpz_pow_ui (&new, &new, (unsigned long int)i2); return MkBigAndClose(&new); } Term Yap_gmp_exp_big_int(MP_INT *b, Int i) { MP_INT new; if (b > 0) { mpz_init(&new); mpz_pow_ui (&new, b, (unsigned long int)i); } else { MP_INT new; if (b==0) return MkIntTerm(1); mpz_init_set_si(&new, i); mpz_powm (&new, b, &new, b); } return MkBigAndClose(&new); } #endif