/***********************************************************************/ /* */ /* OCaml */ /* */ /* Xavier Leroy, projet Cristal, INRIA Rocquencourt */ /* */ /* Copyright 2003 Institut National de Recherche en Informatique et */ /* en Automatique. All rights reserved. This file is distributed */ /* under the terms of the GNU Library General Public License, with */ /* the special exception on linking described in file ../../LICENSE. */ /* */ /***********************************************************************/ /* $Id$ */ #include "bng.h" #include "config.h" #if defined(__GNUC__) && BNG_ASM_LEVEL > 0 #if defined(BNG_ARCH_ia32) #include "bng_ia32.c" #elif defined(BNG_ARCH_amd64) #include "bng_amd64.c" #elif defined(BNG_ARCH_ppc) #include "bng_ppc.c" #elif defined (BNG_ARCH_alpha) #include "bng_alpha.c" #elif defined (BNG_ARCH_sparc) #include "bng_sparc.c" #elif defined (BNG_ARCH_mips) #include "bng_mips.c" #endif #endif #include "bng_digit.c" /**** Operations that cannot be overridden ****/ /* Return number of leading zero bits in d */ int bng_leading_zero_bits(bngdigit d) { int n = BNG_BITS_PER_DIGIT; #ifdef ARCH_SIXTYFOUR if ((d & 0xFFFFFFFF00000000L) != 0) { n -= 32; d = d >> 32; } #endif if ((d & 0xFFFF0000) != 0) { n -= 16; d = d >> 16; } if ((d & 0xFF00) != 0) { n -= 8; d = d >> 8; } if ((d & 0xF0) != 0) { n -= 4; d = d >> 4; } if ((d & 0xC) != 0) { n -= 2; d = d >> 2; } if ((d & 2) != 0) { n -= 1; d = d >> 1; } return n - d; } /* Complement the digits of {a,len} */ void bng_complement(bng a/*[alen]*/, bngsize alen) { for (/**/; alen > 0; alen--, a++) *a = ~*a; } /* Return number of significant digits in {a,alen}. */ bngsize bng_num_digits(bng a/*[alen]*/, bngsize alen) { while (1) { if (alen == 0) return 1; if (a[alen - 1] != 0) return alen; alen--; } } /* Return 0 if {a,alen} = {b,blen} -1 if {a,alen} < {b,blen} 1 if {a,alen} > {b,blen}. */ int bng_compare(bng a/*[alen]*/, bngsize alen, bng b/*[blen]*/, bngsize blen) { bngdigit da, db; while (alen > 0 && a[alen-1] == 0) alen--; while (blen > 0 && b[blen-1] == 0) blen--; if (alen > blen) return 1; if (alen < blen) return -1; while (alen > 0) { alen--; da = a[alen]; db = b[alen]; if (da > db) return 1; if (da < db) return -1; } return 0; } /**** Generic definitions of the overridable operations ****/ /* {a,alen} := {a, alen} + carry. Return carry out. */ static bngcarry bng_generic_add_carry (bng a/*[alen]*/, bngsize alen, bngcarry carry) { if (carry == 0 || alen == 0) return carry; do { if (++(*a) != 0) return 0; a++; } while (--alen); return 1; } /* {a,alen} := {a,alen} + {b,blen} + carry. Return carry out. Require alen >= blen. */ static bngcarry bng_generic_add (bng a/*[alen]*/, bngsize alen, bng b/*[blen]*/, bngsize blen, bngcarry carry) { alen -= blen; for (/**/; blen > 0; blen--, a++, b++) { BngAdd2Carry(*a, carry, *a, *b, carry); } if (carry == 0 || alen == 0) return carry; do { if (++(*a) != 0) return 0; a++; } while (--alen); return 1; } /* {a,alen} := {a, alen} - carry. Return carry out. */ static bngcarry bng_generic_sub_carry (bng a/*[alen]*/, bngsize alen, bngcarry carry) { if (carry == 0 || alen == 0) return carry; do { if ((*a)-- != 0) return 0; a++; } while (--alen); return 1; } /* {a,alen} := {a,alen} - {b,blen} - carry. Return carry out. Require alen >= blen. */ static bngcarry bng_generic_sub (bng a/*[alen]*/, bngsize alen, bng b/*[blen]*/, bngsize blen, bngcarry carry) { alen -= blen; for (/**/; blen > 0; blen--, a++, b++) { BngSub2Carry(*a, carry, *a, *b, carry); } if (carry == 0 || alen == 0) return carry; do { if ((*a)-- != 0) return 0; a++; } while (--alen); return 1; } /* {a,alen} := {a,alen} << shift. Return the bits shifted out of the most significant digit of a. Require 0 <= shift < BITS_PER_BNGDIGIT. */ static bngdigit bng_generic_shift_left (bng a/*[alen]*/, bngsize alen, int shift) { int shift2 = BNG_BITS_PER_DIGIT - shift; bngdigit carry = 0; if (shift > 0) { for (/**/; alen > 0; alen--, a++) { bngdigit d = *a; *a = (d << shift) | carry; carry = d >> shift2; } } return carry; } /* {a,alen} := {a,alen} >> shift. Return the bits shifted out of the least significant digit of a. Require 0 <= shift < BITS_PER_BNGDIGIT. */ static bngdigit bng_generic_shift_right (bng a/*[alen]*/, bngsize alen, int shift) { int shift2 = BNG_BITS_PER_DIGIT - shift; bngdigit carry = 0; if (shift > 0) { for (a = a + alen - 1; alen > 0; alen--, a--) { bngdigit d = *a; *a = (d >> shift) | carry; carry = d << shift2; } } return carry; } /* {a,alen} := {a,alen} + d * {b,blen}. Return carry out. Require alen >= blen. */ static bngdigit bng_generic_mult_add_digit (bng a/*[alen]*/, bngsize alen, bng b/*[blen]*/, bngsize blen, bngdigit d) { bngdigit out, ph, pl; bngcarry carry; alen -= blen; for (out = 0; blen > 0; blen--, a++, b++) { bngdigit bd = *b; /* ph:pl = double-digit product of b's current digit and d */ BngMult(ph, pl, bd, d); /* current digit of a += pl + out. Accumulate carries in ph. */ BngAdd3(*a, ph, *a, pl, out); /* prepare out for next iteration */ out = ph; } if (alen == 0) return out; /* current digit of a += out */ BngAdd2(*a, carry, *a, out); a++; alen--; /* Propagate carry */ if (carry == 0 || alen == 0) return carry; do { if (++(*a) != 0) return 0; a++; } while (--alen); return 1; } /* {a,alen} := {a,alen} - d * {b,blen}. Return carry out. Require alen >= blen. */ static bngdigit bng_generic_mult_sub_digit (bng a/*[alen]*/, bngsize alen, bng b/*[blen]*/, bngsize blen, bngdigit d) { bngdigit out, ph, pl; bngcarry carry; alen -= blen; for (out = 0; blen > 0; blen--, a++, b++) { bngdigit bd = *b; /* ph:pl = double-digit product of b's current digit and d */ BngMult(ph, pl, bd, d); /* current digit of a -= pl + out. Accumulate carrys in ph. */ BngSub3(*a, ph, *a, pl, out); /* prepare out for next iteration */ out = ph; } if (alen == 0) return out; /* current digit of a -= out */ BngSub2(*a, carry, *a, out); a++; alen--; /* Propagate carry */ if (carry == 0 || alen == 0) return carry; do { if ((*a)-- != 0) return 0; a++; } while (--alen); return 1; } /* {a,alen} := {a,alen} + {b,blen} * {c,clen}. Return carry out. Require alen >= blen + clen. */ static bngcarry bng_generic_mult_add (bng a/*[alen]*/, bngsize alen, bng b/*[blen]*/, bngsize blen, bng c/*[clen]*/, bngsize clen) { bngcarry carry; for (carry = 0; clen > 0; clen--, c++, alen--, a++) carry += bng_mult_add_digit(a, alen, b, blen, *c); return carry; } /* {a,alen} := 2 * {a,alen} + {b,blen}^2. Return carry out. Require alen >= 2 * blen. */ static bngcarry bng_generic_square_add (bng a/*[alen]*/, bngsize alen, bng b/*[blen]*/, bngsize blen) { bngcarry carry1, carry2; bngsize i, aofs; bngdigit ph, pl, d; /* Double products */ for (carry1 = 0, i = 1; i < blen; i++) { aofs = 2 * i - 1; carry1 += bng_mult_add_digit(a + aofs, alen - aofs, b + i, blen - i, b[i - 1]); } /* Multiply by two */ carry1 = (carry1 << 1) | bng_shift_left(a, alen, 1); /* Add square of digits */ carry2 = 0; for (i = 0; i < blen; i++) { d = b[i]; BngMult(ph, pl, d, d); BngAdd2Carry(*a, carry2, *a, pl, carry2); a++; BngAdd2Carry(*a, carry2, *a, ph, carry2); a++; } alen -= 2 * blen; if (alen > 0 && carry2 != 0) { do { if (++(*a) != 0) { carry2 = 0; break; } a++; } while (--alen); } return carry1 + carry2; } /* {a,len-1} := {b,len} / d. Return {b,len} modulo d. Require MSD of b < d. If BngDivNeedsNormalization is defined, require d normalized. */ static bngdigit bng_generic_div_rem_norm_digit (bng a/*[len-1]*/, bng b/*[len]*/, bngsize len, bngdigit d) { bngdigit topdigit, quo, rem; intnat i; topdigit = b[len - 1]; for (i = len - 2; i >= 0; i--) { /* Divide topdigit:current digit of numerator by d */ BngDiv(quo, rem, topdigit, b[i], d); /* Quotient is current digit of result */ a[i] = quo; /* Iterate with topdigit = remainder */ topdigit = rem; } return topdigit; } #ifdef BngDivNeedsNormalization /* {a,len-1} := {b,len} / d. Return {b,len} modulo d. Require MSD of b < d. */ static bngdigit bng_generic_div_rem_digit (bng a/*[len-1]*/, bng b/*[len]*/, bngsize len, bngdigit d) { bngdigit rem; int shift; /* Normalize d and b */ shift = bng_leading_zero_bits(d); d <<= shift; bng_shift_left(b, len, shift); /* Do the division */ rem = bng_div_rem_norm_digit(a, b, len, d); /* Undo normalization on b and remainder */ bng_shift_right(b, len, shift); return rem >> shift; } #endif /* {n+dlen, nlen-dlen} := {n,nlen} / {d, dlen}. {n, dlen} := {n,nlen} modulo {d, dlen}. Require nlen > dlen and MSD of n < MSD of d. (This implies MSD of d > 0). */ static void bng_generic_div_rem (bng n/*[nlen]*/, bngsize nlen, bng d/*[dlen]*/, bngsize dlen) { bngdigit topden, quo, rem; int shift; bngsize i, j; /* Normalize d */ shift = bng_leading_zero_bits(d[dlen - 1]); /* Note that no bits of n are lost by the following shift, since n[nlen-1] < d[dlen-1] */ bng_shift_left(n, nlen, shift); bng_shift_left(d, dlen, shift); /* Special case if d is just one digit */ if (dlen == 1) { *n = bng_div_rem_norm_digit(n + 1, n, nlen, *d); } else { topden = d[dlen - 1]; /* Long division */ for (j = nlen - 1; j >= dlen; j--) { i = j - dlen; /* At this point: - the current numerator is n[j] : ...................... : n[0] - to be subtracted quo times: d[dlen-1] : ... : d[0] : 0... : 0 (there are i zeroes at the end) */ /* Under-estimate the next digit of the quotient (quo) */ if (topden + 1 == 0) quo = n[j]; else BngDiv(quo, rem, n[j], n[j - 1], topden + 1); /* Subtract d * quo (shifted i places) from numerator */ n[j] -= bng_mult_sub_digit(n + i, dlen, d, dlen, quo); /* Adjust if necessary */ while (n[j] != 0 || bng_compare(n + i, dlen, d, dlen) >= 0) { /* Numerator is still bigger than shifted divisor. Increment quotient and subtract shifted divisor. */ quo++; n[j] -= bng_sub(n + i, dlen, d, dlen, 0); } /* Store quotient digit */ n[j] = quo; } } /* Undo normalization on remainder and divisor */ bng_shift_right(n, dlen, shift); bng_shift_right(d, dlen, shift); } /**** Construction of the table of operations ****/ struct bng_operations bng_ops = { bng_generic_add_carry, bng_generic_add, bng_generic_sub_carry, bng_generic_sub, bng_generic_shift_left, bng_generic_shift_right, bng_generic_mult_add_digit, bng_generic_mult_sub_digit, bng_generic_mult_add, bng_generic_square_add, bng_generic_div_rem_norm_digit, #ifdef BngDivNeedsNormalization bng_generic_div_rem_digit, #else bng_generic_div_rem_norm_digit, #endif bng_generic_div_rem }; void bng_init(void) { #ifdef BNG_SETUP_OPS BNG_SETUP_OPS; #endif }