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-rw-r--r--moon-abe/pbc-0.5.14/arith/field.c889
1 files changed, 0 insertions, 889 deletions
diff --git a/moon-abe/pbc-0.5.14/arith/field.c b/moon-abe/pbc-0.5.14/arith/field.c
deleted file mode 100644
index af94e37f..00000000
--- a/moon-abe/pbc-0.5.14/arith/field.c
+++ /dev/null
@@ -1,889 +0,0 @@
-#include <ctype.h>
-#include <stdarg.h>
-#include <stdint.h> // for intptr_t
-#include <stdio.h>
-#include <stdlib.h>
-#include <string.h> // for memcmp()
-#include <gmp.h>
-#include "pbc_utils.h"
-#include "pbc_field.h"
-#include "pbc_multiz.h"
-#include "pbc_memory.h"
-
-// returns recommended window size. n is exponent.
-static int optimal_pow_window_size(mpz_ptr n) {
- int exp_bits;
-
- exp_bits = mpz_sizeinbase(n, 2);
-
- // try to minimize 2^k + n/(k+1).
- return exp_bits > 9065 ? 8 :
- exp_bits > 3529 ? 7 :
- exp_bits > 1324 ? 6 :
- exp_bits > 474 ? 5 :
- exp_bits > 157 ? 4 :
- exp_bits > 47 ? 3 :
- 2;
-}
-
-/* builds k-bit lookup window for base a */
-static element_t *build_pow_window(element_ptr a, int k) {
- int s;
- int lookup_size;
- element_t *lookup;
-
- if (k < 1) return NULL; // no window
-
- /* build 2^k lookup table. lookup[i] = x^i. */
- /* TODO: a more careful word-finding algorithm would allow
- * us to avoid calculating even lookup entries > 2
- */
- lookup_size = 1 << k;
- lookup = pbc_malloc(lookup_size * sizeof(element_t));
- element_init(lookup[0], a->field);
- element_set1(lookup[0]);
- for (s = 1; s < lookup_size; s++) {
- element_init(lookup[s], a->field);
- element_mul(lookup[s], lookup[s - 1], a);
- }
-
- return lookup;
-}
-
-static void clear_pow_window(int k, element_t * lookup) {
- int s;
- int lookup_size = 1 << k;
-
- for (s = 0; s < lookup_size; s++) {
- element_clear(lookup[s]);
- }
- pbc_free(lookup);
-}
-
-/*
- * left-to-right exponentiation with k-bit window.
- * NB. must have k >= 1.
- */
-static void element_pow_wind(element_ptr x, mpz_ptr n,
- int k, element_t * a_lookup) {
- int s;
- int bit;
-
- int inword; // boolean: currently reading word?
- int word = 0; // the word to look up. 0<word<base
- int wbits = 0; // # of bits so far in word. wbits<=k.
-
- element_t result;
-
- // early abort if raising to power 0
- if (!mpz_sgn(n)) {
- element_set1(x);
- return;
- }
-
- element_init(result, x->field);
- element_set1(result);
-
- for (inword = 0, s = mpz_sizeinbase(n, 2) - 1; s >= 0; s--) {
- element_square(result, result);
- bit = mpz_tstbit(n, s);
-
- if (!inword && !bit)
- continue; // keep scanning. note continue.
-
- if (!inword) { // was scanning, just found word
- inword = 1; // so, start new word
- word = 1;
- wbits = 1;
- } else {
- word = (word << 1) + bit;
- wbits++; // continue word
- }
-
- if (wbits == k || s == 0) {
- element_mul(result, result, a_lookup[word]);
- inword = 0;
- }
- }
-
- element_set(x, result);
- element_clear(result);
-}
-
-static void generic_pow_mpz(element_ptr x, element_ptr a, mpz_ptr n) {
- int k;
- element_t *a_lookup;
-
- if (mpz_is0(n)) {
- element_set1(x);
- return;
- }
-
- k = optimal_pow_window_size(n);
- a_lookup = build_pow_window(a, k);
- element_pow_wind(x, n, k, a_lookup);
- clear_pow_window(k, a_lookup);
-}
-
-/* TODO: Allow fields to choose this exponentiation routine so we can compare.
-static void naive_generic_pow_mpz(element_ptr x, element_ptr a, mpz_ptr n) {
- int s;
-
- element_t result;
-
- if (mpz_is0(n)) {
- element_set1(x);
- return;
- }
-
- element_init(result, x->field);
- element_set1(result);
-
- for (s = mpz_sizeinbase(n, 2) - 1; s >= 0; s--) {
- element_square(result, result);
- if (mpz_tstbit(n, s)) {
- element_mul(result, result, a);
- }
- }
- element_set(x, result);
- element_clear(result);
-}
-*/
-
-void element_pow2_mpz(element_ptr x, element_ptr a1, mpz_ptr n1,
- element_ptr a2, mpz_ptr n2) {
- int s, s1, s2;
- int b1, b2;
-
- element_t result, a1a2;
-
- if (mpz_is0(n1) && mpz_is0(n2)) {
- element_set1(x);
- return;
- }
-
- element_init(result, x->field);
- element_set1(result);
-
- element_init(a1a2, x->field);
- element_mul(a1a2, a1, a2);
-
- s1 = mpz_sizeinbase(n1, 2) - 1;
- s2 = mpz_sizeinbase(n2, 2) - 1;
- for (s = (s1 > s2) ? s1 : s2; s >= 0; s--) {
- element_mul(result, result, result);
- b1 = mpz_tstbit(n1, s);
- b2 = mpz_tstbit(n2, s);
- if (b1 && b2) {
- element_mul(result, result, a1a2);
- } else if (b1) {
- element_mul(result, result, a1);
- } else if (b2) {
- element_mul(result, result, a2);
- }
- }
-
- element_set(x, result);
- element_clear(result);
- element_clear(a1a2);
-}
-
-void element_pow3_mpz(element_ptr x, element_ptr a1, mpz_ptr n1,
- element_ptr a2, mpz_ptr n2,
- element_ptr a3, mpz_ptr n3) {
- int s, s1, s2, s3;
- int b;
- int i;
-
- element_t result;
- element_t lookup[8];
-
- if (mpz_is0(n1) && mpz_is0(n2) && mpz_is0(n3)) {
- element_set1(x);
- return;
- }
-
- element_init(result, x->field);
- element_set1(result);
-
- for (i = 0; i < 8; i++)
- element_init(lookup[i], x->field);
-
- // build lookup table.
- element_set1(lookup[0]);
- element_set(lookup[1], a1);
- element_set(lookup[2], a2);
- element_set(lookup[4], a3);
- element_mul(lookup[3], a1, a2);
- element_mul(lookup[5], a1, a3);
- element_mul(lookup[6], a2, a3);
- element_mul(lookup[7], lookup[6], a1);
-
- // calculate largest exponent bitsize
- s1 = mpz_sizeinbase(n1, 2) - 1;
- s2 = mpz_sizeinbase(n2, 2) - 1;
- s3 = mpz_sizeinbase(n3, 2) - 1;
- s = (s1 > s2) ? ((s1 > s3) ? s1 : s3)
- : ((s2 > s3) ? s2 : s3);
-
- for (; s >= 0; s--) {
- element_mul(result, result, result);
- b = (mpz_tstbit(n1, s))
- + (mpz_tstbit(n2, s) << 1)
- + (mpz_tstbit(n3, s) << 2);
- element_mul(result, result, lookup[b]);
- }
-
- element_set(x, result);
- element_clear(result);
- for (i = 0; i < 8; i++)
- element_clear(lookup[i]);
-}
-
-struct element_base_table {
- int k;
- int bits;
- int num_lookups;
- element_t **table;
-};
-
-/* build k-bit base table for n-bit exponentiation w/ base a */
-static void *element_build_base_table(element_ptr a, int bits, int k) {
- struct element_base_table *base_table;
- element_t multiplier;
- int i, j;
- int lookup_size;
-
- element_t *lookup;
-
- // pbc_info("building %d bits %d k", bits, k);
- lookup_size = 1 << k;
-
- base_table = pbc_malloc(sizeof(struct element_base_table));
- base_table->num_lookups = bits / k + 1;
- base_table->k = k;
- base_table->bits = bits;
- base_table->table =
- pbc_malloc(base_table->num_lookups * sizeof(element_t *));
-
- element_init(multiplier, a->field);
- element_set(multiplier, a);
-
- for (i = 0; i < base_table->num_lookups; i++) {
- lookup = pbc_malloc(lookup_size * sizeof(element_t));
- element_init(lookup[0], a->field);
- element_set1(lookup[0]);
- for (j = 1; j < lookup_size; j++) {
- element_init(lookup[j], a->field);
- element_mul(lookup[j], multiplier, lookup[j - 1]);
- }
- element_mul(multiplier, multiplier, lookup[lookup_size - 1]);
- base_table->table[i] = lookup;
- }
-
- element_clear(multiplier);
- return base_table;
-}
-
-/*
- * exponentiation using aggressive base lookup table
- * must have k >= 1.
- */
-static void element_pow_base_table(element_ptr x, mpz_ptr power,
- struct element_base_table *base_table) {
- int word; /* the word to look up. 0<word<base */
- int row, s; /* row and col in base table */
- int num_lookups;
-
- element_t result;
- mpz_t n;
- mpz_init_set(n, power);
-
- // Early abort if raising to power 0.
- if (!mpz_sgn(n)) {
- element_set1(x);
- return;
- }
- if (mpz_cmp(n, x->field->order) > 0) {
- mpz_mod(n, n, x->field->order);
- }
-
- element_init(result, x->field);
- element_set1(result);
-
- num_lookups = mpz_sizeinbase(n, 2) / base_table->k + 1;
-
- for (row = 0; row < num_lookups; row++) {
- word = 0;
- for (s = 0; s < base_table->k; s++) {
- word |= mpz_tstbit(n, base_table->k * row + s) << s;
- }
- if (word > 0) {
- element_mul(result, result, base_table->table[row][word]);
- }
- }
-
- element_set(x, result);
- element_clear(result);
- mpz_clear(n);
-}
-
-static void default_element_pp_init(element_pp_t p, element_t in) {
- p->data =
- element_build_base_table(in, mpz_sizeinbase(in->field->order, 2), 5);
-}
-
-static void default_element_pp_pow(element_t out, mpz_ptr power, element_pp_t p) {
- element_pow_base_table(out, power, p->data);
-}
-
-static void default_element_pp_clear(element_pp_t p) {
- struct element_base_table *base_table = p->data;
- int lookup_size = 1 << base_table->k;
- element_t *lookup;
- int i, j;
-
- element_t **epp = base_table->table;
-
- for (i = 0; i < base_table->num_lookups; i++) {
- lookup = epp[i];
- for (j = 0; j < lookup_size; j++) {
- element_clear(lookup[j]);
- }
- pbc_free(lookup);
- }
- pbc_free(epp);
-
- pbc_free(base_table);
-}
-
-void field_set_nqr(field_ptr f, element_t nqr) {
- if (!f->nqr) {
- f->nqr = pbc_malloc(sizeof(element_t));
- element_init(f->nqr, f);
- }
- element_set(f->nqr, nqr);
-}
-
-void field_gen_nqr(field_ptr f) {
- f->nqr = pbc_malloc(sizeof(element_t));
- element_init(f->nqr, f);
- do {
- element_random(f->nqr);
- } while (element_is_sqr(f->nqr));
-}
-
-element_ptr field_get_nqr(field_ptr f) {
- if (!f->nqr) field_gen_nqr(f);
- return f->nqr;
-}
-
-static void generic_square(element_ptr r, element_ptr a) {
- element_mul(r, a, a);
-}
-static void generic_mul_mpz(element_ptr r, element_ptr a, mpz_ptr z) {
- element_t e0;
- element_init(e0, r->field);
- element_set_mpz(e0, z);
- element_mul(r, a, e0);
- element_clear(e0);
-}
-
-static void generic_mul_si(element_ptr r, element_ptr a, signed long int n) {
- element_t e0;
- element_init(e0, r->field);
- element_set_si(e0, n);
- element_mul(r, a, e0);
- element_clear(e0);
-}
-
-static void generic_double(element_ptr r, element_ptr a) {
- element_add(r, a, a);
-}
-
-static void generic_halve(element_ptr r, element_ptr a) {
- element_t e0;
- element_init(e0, r->field);
- element_set_si(e0, 2);
- element_invert(e0, e0);
- element_mul(r, a, e0);
- element_clear(e0);
-}
-
-static void zero_to_mpz(mpz_t z, element_ptr a) {
- UNUSED_VAR(a);
- mpz_set_ui(z, 0);
-}
-
-static void zero_set_mpz(element_ptr a, mpz_t z) {
- UNUSED_VAR(z);
- element_set0(a);
-}
-
-static void zero_random(element_ptr a) {
- element_set0(a);
-}
-
-static void generic_set_si(element_ptr a, long int si) {
- mpz_t z;
- mpz_init(z);
- mpz_set_si(z, si);
- element_set_mpz(a, z);
- mpz_clear(z);
-}
-
-static void generic_set_multiz(element_ptr a, multiz m) {
- mpz_t z;
- mpz_init(z);
- multiz_to_mpz(z, m);
- element_set_mpz(a, z);
- mpz_clear(z);
-}
-
-static void generic_sub(element_ptr c, element_ptr a, element_ptr b) {
- if (c != a) {
- element_neg(c, b);
- element_add(c, c, a);
- } else {
- element_t tmp;
- element_init(tmp, a->field);
- element_neg(tmp, b);
- element_add(c, tmp, a);
- element_clear(tmp);
- }
-}
-
-static void generic_div(element_ptr c, element_ptr a, element_ptr b) {
- if (c != a) {
- element_invert(c, b);
- element_mul(c, c, a);
- } else {
- element_t tmp;
- element_init(tmp, a->field);
- element_invert(tmp, b);
- element_mul(c, tmp, a);
- element_clear(tmp);
- }
-}
-
-static void generic_add_ui(element_ptr c, element_ptr a,
- unsigned long int b) {
- element_t e;
- mpz_t z;
- element_init(e, c->field);
- mpz_init(z);
- mpz_set_ui(z, b);
- element_set_mpz(e, z);
- element_add(c, a, e);
- mpz_clear(z);
- element_clear(e);
-}
-
-static int generic_cmp(element_ptr a, element_ptr b) {
- int result;
- unsigned char *buf1, *buf2;
- int len;
- if (a == b) return 0;
- len = element_length_in_bytes(a);
- if (len != element_length_in_bytes(b)) return 1;
- buf1 = pbc_malloc(len);
- buf2 = pbc_malloc(len);
- element_to_bytes(buf1, a);
- element_to_bytes(buf2, b);
- result = memcmp(buf1, buf2, len);
- pbc_free(buf1);
- pbc_free(buf2);
- return result;
-}
-
-static int generic_is0(element_ptr a) {
- int result;
- element_t b;
- element_init(b, a->field);
- result = !element_cmp(a, b); // element_cmp returns 0 if 'a' and 'b' are the same, nonzero otherwise. generic_is0 returns true if 'a' is 0.
- element_clear(b);
- return result;
-}
-
-static int generic_is1(element_ptr a) {
- int result;
- element_t b;
- element_init(b, a->field);
- element_set1(b);
- result = !element_cmp(a, b); // element_cmp returns 0 if 'a' and 'b' are the same, nonzero otherwise. generic_is1 returns true if 'a' is 1.
- element_clear(b);
- return result;
-}
-
-static void generic_out_info(FILE * out, field_ptr f) {
- element_fprintf(out, "unknown field %p, order = %Zd", f, f->order);
-}
-
-static int generic_item_count(element_ptr e) {
- UNUSED_VAR(e);
- return 0;
-}
-
-static element_ptr generic_item(element_ptr e, int i) {
- UNUSED_VAR(e);
- UNUSED_VAR(i);
- return NULL;
-}
-
-static element_ptr generic_get_x(element_ptr e) {
- return element_item(e, 0);
-}
-
-static element_ptr generic_get_y(element_ptr e) {
- return element_item(e, 1);
-}
-
-static int default_element_snprint(char *s, size_t n, element_t e) {
- UNUSED_VAR(e);
- if (n == 1) {
- s[0] = '0';
- } else if (n >= 2) {
- s[0] = '?';
- s[1] = '\0';
- }
- return 1;
-}
-
-static int default_element_set_str(element_t e, const char *s, int base) {
- UNUSED_VAR(s);
- UNUSED_VAR(base);
- element_set0(e);
- return 0;
-}
-
-static void warn_field_clear(field_ptr f) {
- pbc_warn("field %p has no clear function", f);
-}
-
-void field_out_info(FILE* out, field_ptr f) {
- f->out_info(out, f);
-}
-
-void field_init(field_ptr f) {
- // should be called by each field_init_*
- f->nqr = NULL;
- mpz_init(f->order);
-
- // this should later be set
- f->field_clear = warn_field_clear;
-
- // and this to something more helpful
- f->out_info = generic_out_info;
-
- // many of these can usually be optimized for particular fields
- // provided for developer's convenience
- f->halve = generic_halve;
- f->doub = generic_double;
- f->square = generic_square;
- f->mul_mpz = generic_mul_mpz;
- f->mul_si = generic_mul_si;
- f->cmp = generic_cmp;
- f->sub = generic_sub;
- f->div = generic_div;
- f->add_ui = generic_add_ui;
-
- // default: converts all elements to integer 0
- // reads all integers as 0
- // random always outputs 0
- f->to_mpz = zero_to_mpz;
- f->set_mpz = zero_set_mpz;
- f->set_multiz = generic_set_multiz;
- f->random = zero_random;
- f->set_si = generic_set_si;
- f->is1 = generic_is1;
- f->is0 = generic_is0;
-
- // By default, an element has no components.
- f->item_count = generic_item_count;
- f->item = generic_item;
- f->get_x = generic_get_x;
- f->get_y = generic_get_y;
-
- // these are fast, thanks to Hovav
- f->pow_mpz = generic_pow_mpz;
- f->pp_init = default_element_pp_init;
- f->pp_clear = default_element_pp_clear;
- f->pp_pow = default_element_pp_pow;
-
- f->snprint = default_element_snprint;
- f->set_str = default_element_set_str;
- f->pairing = NULL;
-}
-
-void field_clear(field_ptr f) {
- if (f->nqr) {
- element_clear(f->nqr);
- pbc_free(f->nqr);
- }
- mpz_clear(f->order);
- f->field_clear(f);
-}
-
-void pbc_mpz_out_raw_n(unsigned char *data, int n, mpz_t z) {
- size_t count;
- if (mpz_sgn(z)) {
- count = (mpz_sizeinbase(z, 2) + 7) / 8;
- mpz_export(&data[n - count], NULL, 1, 1, 1, 0, z);
- memset(data, 0, n - count);
- } else {
- memset(data, 0, n);
- }
-}
-
-//for short hashes H, do
-// buf = H || 0 || H || 1 || H || ...
-//before calling mpz_import
-void pbc_mpz_from_hash(mpz_t z, mpz_t limit,
- unsigned char *data, unsigned int len) {
- size_t i = 0, n, count = (mpz_sizeinbase(limit, 2) + 7) / 8;
- unsigned char buf[count];
- unsigned char counter = 0;
- int done = 0;
- for (;;) {
- if (len >= count - i) {
- n = count - i;
- done = 1;
- } else n = len;
- memcpy(buf + i, data, n);
- i += n;
- if (done) break;
- buf[i] = counter;
- counter++;
- i++;
- if (i == count) break;
- }
- PBC_ASSERT(i == count, "did not read whole buffer");
- mpz_import(z, count, 1, 1, 1, 0, buf);
- while (mpz_cmp(z, limit) > 0) {
- mpz_tdiv_q_2exp(z, z, 1);
- }
-}
-
-// Square root algorithm for Fp.
-// TODO: What happens if this is run on other kinds of fields?
-void element_tonelli(element_ptr x, element_ptr a) {
- int s;
- int i;
- mpz_t e;
- mpz_t t, t0;
- element_t ginv, e0;
- element_ptr nqr;
-
- mpz_init(t);
- mpz_init(e);
- mpz_init(t0);
- element_init(ginv, a->field);
- element_init(e0, a->field);
- nqr = field_get_nqr(a->field);
-
- element_invert(ginv, nqr);
-
- //let q be the order of the field
- //q - 1 = 2^s t, t odd
- mpz_sub_ui(t, a->field->order, 1);
- s = mpz_scan1(t, 0);
- mpz_tdiv_q_2exp(t, t, s);
- mpz_set_ui(e, 0);
- for (i = 2; i <= s; i++) {
- mpz_sub_ui(t0, a->field->order, 1);
- mpz_tdiv_q_2exp(t0, t0, i);
- element_pow_mpz(e0, ginv, e);
- element_mul(e0, e0, a);
- element_pow_mpz(e0, e0, t0);
- if (!element_is1(e0)) mpz_setbit(e, i - 1);
- }
- element_pow_mpz(e0, ginv, e);
- element_mul(e0, e0, a);
- mpz_add_ui(t, t, 1);
- mpz_tdiv_q_2exp(t, t, 1);
- mpz_tdiv_q_2exp(e, e, 1);
-
- // (suggested by Hovav Shacham) replace next three lines with
- // element_pow2_mpz(x, e0, t, nqr, e);
- // once sliding windows are implemented for pow2.
- element_pow_mpz(e0, e0, t);
- element_pow_mpz(x, nqr, e);
- element_mul(x, x, e0);
-
- mpz_clear(t);
- mpz_clear(e);
- mpz_clear(t0);
- element_clear(ginv);
- element_clear(e0);
-}
-
-// Like mpz_set_str except returns number of bytes read and allows trailing
-// junk. This simplifies code for parsing elements like "[123, 456]".
-// TODO: Handle 0x, 0X and 0 conventions for hexadecimal and octal.
-int pbc_mpz_set_str(mpz_t z, const char *s, int base) {
- int b, i = 0;
- mpz_set_ui(z, 0);
- if (!base) b = 10;
- else if (base < 2 || base > 36) return 0;
- else b = base;
-
- for (;;) {
- int j;
- char c = s[i];
- if (!c) break;
- if (isspace(c)) {
- i++;
- continue;
- }
- if (isdigit(c)) {
- j = c - '0';
- } else if (c >= 'A' && c <= 'Z') {
- j = c - 'A';
- } else if (c >= 'a' && c <= 'z') {
- j = c - 'a';
- } else break;
-
- if (j >= b) break;
-
- mpz_mul_ui(z, z, b);
- mpz_add_ui(z, z, j);
- i++;
- }
- return i;
-}
-
-// Divides `n` with primes up to `limit`. For each factor found,
-// call `fun`. If the callback returns nonzero, then aborts and returns 1.
-// Otherwise returns 0.
-int pbc_trial_divide(int (*fun)(mpz_t factor,
- unsigned int multiplicity,
- void *scope_ptr),
- void *scope_ptr,
- mpz_t n,
- mpz_ptr limit) {
- mpz_t p, m;
- mpz_t fac;
- unsigned int mul;
-
- mpz_init(fac);
- mpz_init(p);
- mpz_init(m);
- mpz_set(m ,n);
- mpz_set_ui(p, 2);
-
- while (mpz_cmp_ui(m, 1)) {
- if (mpz_probab_prime_p(m, 10)) {
- mpz_set(p, m);
- }
- if (limit && mpz_cmp(p, limit) > 0) {
- mpz_set(p, m);
- }
- if (mpz_divisible_p(m, p)) {
- mul = 0;
- mpz_set(fac, p);
- do {
- mpz_divexact(m, m, p);
- mul++;
- } while (mpz_divisible_p(m, p));
- if (fun(fac, mul, scope_ptr)) {
- mpz_clear(fac);
- mpz_clear(m);
- mpz_clear(p);
- return 1;
- }
- }
- mpz_nextprime(p, p);
- }
-
- mpz_clear(fac);
- mpz_clear(m);
- mpz_clear(p);
- return 0;
-}
-
-// For each digit of 'n', call fun(). If it returns 1, then return 1 and
-// abort. Otherwise return 0.
-int pbc_mpz_trickle(int (*fun)(char), int base, mpz_t n) {
- // TODO: Support different bases.
- if (!base) base = 10;
- if (base < 2 || base > 10) {
- pbc_warn("only bases 2 to 10 supported");
- return 1;
- }
- mpz_t d, z, q;
- mpz_init(d);
- mpz_init(z);
- mpz_init(q);
- mpz_set(z, n);
- int res;
- int len;
- mpz_ui_pow_ui(d, base, len = mpz_sizeinbase(z, base));
- if (mpz_cmp(d, z) > 0) {
- len--;
- mpz_divexact_ui(d, d, base);
- }
- while (mpz_cmp_ui(z, base) >= 0) {
- mpz_fdiv_qr(q, z, z, d);
- res = fun('0' + mpz_get_ui(q));
- if (res) goto clean;
- mpz_divexact_ui(d, d, base);
- len--;
- }
- while (len) {
- res = fun('0');
- if (res) goto clean;
- len--;
- }
- res = fun('0' + mpz_get_ui(z));
-clean:
- mpz_clear(q);
- mpz_clear(z);
- mpz_clear(d);
- return res;
-}
-
-void element_multi_double(element_t n[], element_t a[], int m) {
- element_ptr *temp1 = pbc_malloc(sizeof(*temp1)*m);
- element_ptr *temp2 = pbc_malloc(sizeof(*temp2)*m);
- int i;
-
- for(i=0; i<m; i++) {
- PBC_ASSERT_MATCH2(n[i], a[i]);
- temp1[i] = n[i];
- temp2[i] = a[i];
- }
- n[0]->field->multi_doub(temp1, temp2, m);
- pbc_free(temp1);
- pbc_free(temp2);
-}
-
-void element_multi_add(element_t n[], element_t a[],element_t b[], int m) {
- size_t size = sizeof(element_ptr)*m;
- element_ptr *temp1 = pbc_malloc(size);
- element_ptr *temp2 = pbc_malloc(size);
- element_ptr *temp3 = pbc_malloc(size);
-
- int i;
- for(i=0; i<m; i++){
- PBC_ASSERT_MATCH3(n[i], a[i], b[i]);
- temp1[i] = n[i];
- temp2[i] = a[i];
- temp3[i] = b[i];
- }
-
- n[0]->field->multi_add(temp1, temp2, temp3, m);
- pbc_free(temp1);
- pbc_free(temp2);
- pbc_free(temp3);
-}
-
-element_ptr element_new(field_ptr f) {
- element_ptr e = pbc_malloc(sizeof(*e));
- element_init(e, f);
- return e;
-}
-
-void element_free(element_ptr e) {
- element_clear(e);
- pbc_free(e);
-}