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package Crypt::Perl::ECDSA::Math; |
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#Math that’s really only useful for us in the context of ECDSA. |
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use strict; |
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use warnings; |
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use Crypt::Perl::BigInt (); |
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6201
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#A port of libtomcrypt’s mp_sqrtmod_prime(). |
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#The return value will be a Crypt::Perl::BigInt reference. |
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# |
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#See also implementations at: |
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# https://rosettacode.org/wiki/Tonelli-Shanks_algorithm |
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# |
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#See “Handbook of Applied Cryptography”, algorithms 3.34 and 3.36, |
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#for reference. |
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sub tonelli_shanks { |
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122
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122
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0
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19508
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my ($n, $p) = @_; |
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122
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896
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_make_bigints($n, $p); |
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122
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return 0 if $n->is_zero(); |
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122
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2829
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die "prime must be odd" if $p->beq(2); |
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122
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15062
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if (jacobi($n, $p) == -1) { |
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0
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die sprintf( "jacobi(%s, %s) must not be -1", $n->as_hex(), $p->as_hex()); |
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} |
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#HAC 3.36 |
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122
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if ( $p->copy()->bmod(4)->beq(3) ) { |
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27049
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return $n->copy()->bmodpow( $p->copy()->binc()->brsft(2), $p ); |
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} |
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4929
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my $Si = 0; |
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my $Q = $p->copy()->bdec(); |
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1561
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while ( $Q->is_even() ) { |
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608
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6673
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$Q->brsft(1); |
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608
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106475
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$Si++; |
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} |
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my $Z = Crypt::Perl::BigInt->new(2); |
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641
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while (1) { |
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100
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2735
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last if jacobi($Z, $p) == -1; |
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270
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$Z->binc(); |
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} |
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my $C = $Z->copy()->bmodpow($Q, $p); |
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1901001
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my $t1 = $Q->copy()->binc()->brsft(1); |
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5460
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my $R = $n->copy()->bmodpow($t1, $p); |
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1456361
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my $T = $n->copy()->bmodpow($Q, $p); |
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57
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1974952
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my $Mi = $Si; |
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111
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while (1) { |
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295
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733
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my $i = 0; |
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295
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962
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$t1 = $T->copy(); |
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295
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6303
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while (1) { |
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13856
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100
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36778
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last if $t1->is_one(); |
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13561
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177409
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$t1->bmodpow(2, $p); |
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13561
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21862364
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$i++; |
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} |
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70
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295
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100
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4832
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return $R if $i == 0; |
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72
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278
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1199
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$t1 = _bi2()->bmodpow($Mi - $i - 1, $p); |
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278
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85238
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$t1 = $C->bmodpow($t1, $p); |
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278
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449177
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$C = $t1->copy()->bmodpow(2, $p); |
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278
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449347
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$R->bmul($t1)->bmod($p); |
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278
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224660
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$T->bmul($C)->bmod($p); |
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216725
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$Mi = $i; |
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} |
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} |
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83
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my $BI2; |
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sub _bi2 { |
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278
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66
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278
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1301
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return( ($BI2 ||= Crypt::Perl::BigInt->new(2))->copy() ); |
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} |
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88
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#cf. mp_jacobi() |
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# |
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#The return value is a plain scalar (-1, 0, or 1). |
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# |
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sub jacobi { |
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242
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242
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0
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42204
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my ($a, $n) = @_; |
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95
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242
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875
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_make_bigints($a, $n); |
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97
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242
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477
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my $ret = 1; |
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99
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#This loop avoids deep recursion. |
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242
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396
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while (1) { |
101
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10381
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21504
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my ($ret2, $help) = _jacobi_backend($a, $n); |
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103
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10381
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20741
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$ret *= $ret2; |
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105
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10381
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100
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22888
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last if !$help; |
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107
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10139
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35990
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($a, $n) = @$help; |
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} |
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110
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242
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1140
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return $ret; |
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} |
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113
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sub _make_bigints { |
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364
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66
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364
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2151
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ref || ($_ = _bi($_)) for @_; |
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} |
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117
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sub _jacobi_backend { |
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10381
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10381
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16802
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my ($a, $n) = @_; |
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120
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10381
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50
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26620
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die "“a” can’t be negative!" if $a < 0; |
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122
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10381
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50
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1520154
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die "“n” must be positive!" if $n <= 0; |
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124
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#step 1 |
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10381
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100
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1441346
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if ($a->is_zero()) { |
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5
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50
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74
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return $n->is_one() ? 1 : 0; |
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} |
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129
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#step 2 |
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10376
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100
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117500
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return 1 if $a->is_one(); |
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132
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#default |
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10318
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110403
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my $si = 0; |
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135
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10318
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21676
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my $a1 = $a->copy(); |
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137
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#Determine $a1’s greatest factor that is a power of 2, |
138
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#which is the number of lest-significant 0 bits. |
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10318
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183293
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my $ki = _count_lsb($a1); |
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141
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10318
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32804
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$a1->brsft($ki); |
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143
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#step 4 |
144
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10318
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100
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1791029
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if (($ki & 1) == 0) { |
145
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6574
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10344
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$si = 1; |
146
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} |
147
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else { |
148
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3744
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9452
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my $residue = $n->copy()->band(7)->numify(); |
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150
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3744
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100
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1034837
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if ( $residue == 1 || $residue == 7 ) { |
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66
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151
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1913
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3794
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$si = 1; |
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} |
153
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elsif ( $residue == 3 || $residue == 5 ) { |
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1831
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3212
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$si = -1; |
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} |
156
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} |
157
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158
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#step 5 |
159
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10318
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100
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100
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23811
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if ( $n->copy()->band(3)->beq(3) && $a1->copy()->band(3)->beq(3) ) { |
160
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2587
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1756097
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$si = 0 - $si; |
161
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} |
162
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163
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10318
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100
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3559477
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return $si if $a1->is_one(); |
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165
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10139
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121449
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my $p1 = $n->copy()->bmod($a1); |
166
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167
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10139
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2045394
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return( $si, [$p1, $a1] ); |
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} |
169
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170
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#cf. mp_cnt_lsb() |
171
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sub _count_lsb { |
172
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10318
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10318
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16812
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my ($num) = @_; |
173
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174
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#sprintf('%b',$num) =~ m<(0*)\z>; |
175
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10318
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20911
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$num->as_bin() =~ m<(0*)\z>; |
176
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177
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10318
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5273788
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return length $1; |
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} |
179
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180
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16
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16
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383
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sub _bi { return Crypt::Perl::BigInt->new(@_) } |
181
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182
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1; |