annotate bn_mp_karatsuba_mul.c @ 145:a96ff234ff19 libtommath

propagate of fc94c38452d9fd684a8e1eb9e3a73120aac0d38f and 3e4de4cbef3d9035a7b2f0c25e9f86e297f9f6d1 from branch 'au.asn.ucc.matt.ltm-orig' to 'au.asn.ucc.matt.ltm-db'
author Matt Johnston <matt@ucc.asn.au>
date Sun, 19 Dec 2004 15:57:19 +0000
parents d29b64170cf0
children
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142
d29b64170cf0 import of libtommath 0.32
Matt Johnston <matt@ucc.asn.au>
parents: 2
diff changeset
1 #include <tommath.h>
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2 #ifdef BN_MP_KARATSUBA_MUL_C
2
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3 /* LibTomMath, multiple-precision integer library -- Tom St Denis
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4 *
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5 * LibTomMath is a library that provides multiple-precision
86e0b50a9b58 ltm 0.30 orig import
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6 * integer arithmetic as well as number theoretic functionality.
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7 *
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8 * The library was designed directly after the MPI library by
86e0b50a9b58 ltm 0.30 orig import
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9 * Michael Fromberger but has been written from scratch with
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10 * additional optimizations in place.
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11 *
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12 * The library is free for all purposes without any express
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13 * guarantee it works.
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14 *
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15 * Tom St Denis, [email protected], http://math.libtomcrypt.org
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16 */
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17
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18 /* c = |a| * |b| using Karatsuba Multiplication using
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19 * three half size multiplications
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20 *
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21 * Let B represent the radix [e.g. 2**DIGIT_BIT] and
86e0b50a9b58 ltm 0.30 orig import
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22 * let n represent half of the number of digits in
86e0b50a9b58 ltm 0.30 orig import
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23 * the min(a,b)
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24 *
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25 * a = a1 * B**n + a0
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26 * b = b1 * B**n + b0
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27 *
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28 * Then, a * b =>
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29 a1b1 * B**2n + ((a1 - a0)(b1 - b0) + a0b0 + a1b1) * B + a0b0
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30 *
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31 * Note that a1b1 and a0b0 are used twice and only need to be
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32 * computed once. So in total three half size (half # of
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33 * digit) multiplications are performed, a0b0, a1b1 and
86e0b50a9b58 ltm 0.30 orig import
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34 * (a1-b1)(a0-b0)
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35 *
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36 * Note that a multiplication of half the digits requires
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37 * 1/4th the number of single precision multiplications so in
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38 * total after one call 25% of the single precision multiplications
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39 * are saved. Note also that the call to mp_mul can end up back
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40 * in this function if the a0, a1, b0, or b1 are above the threshold.
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41 * This is known as divide-and-conquer and leads to the famous
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42 * O(N**lg(3)) or O(N**1.584) work which is asymptopically lower than
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43 * the standard O(N**2) that the baseline/comba methods use.
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44 * Generally though the overhead of this method doesn't pay off
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45 * until a certain size (N ~ 80) is reached.
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46 */
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47 int mp_karatsuba_mul (mp_int * a, mp_int * b, mp_int * c)
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48 {
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49 mp_int x0, x1, y0, y1, t1, x0y0, x1y1;
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50 int B, err;
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51
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52 /* default the return code to an error */
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53 err = MP_MEM;
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54
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55 /* min # of digits */
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56 B = MIN (a->used, b->used);
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57
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58 /* now divide in two */
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59 B = B >> 1;
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60
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61 /* init copy all the temps */
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62 if (mp_init_size (&x0, B) != MP_OKAY)
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63 goto ERR;
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64 if (mp_init_size (&x1, a->used - B) != MP_OKAY)
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65 goto X0;
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66 if (mp_init_size (&y0, B) != MP_OKAY)
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67 goto X1;
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68 if (mp_init_size (&y1, b->used - B) != MP_OKAY)
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69 goto Y0;
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70
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71 /* init temps */
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72 if (mp_init_size (&t1, B * 2) != MP_OKAY)
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73 goto Y1;
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74 if (mp_init_size (&x0y0, B * 2) != MP_OKAY)
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75 goto T1;
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76 if (mp_init_size (&x1y1, B * 2) != MP_OKAY)
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77 goto X0Y0;
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78
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79 /* now shift the digits */
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80 x0.used = y0.used = B;
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81 x1.used = a->used - B;
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82 y1.used = b->used - B;
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83
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84 {
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85 register int x;
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86 register mp_digit *tmpa, *tmpb, *tmpx, *tmpy;
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87
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88 /* we copy the digits directly instead of using higher level functions
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89 * since we also need to shift the digits
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90 */
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91 tmpa = a->dp;
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92 tmpb = b->dp;
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93
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94 tmpx = x0.dp;
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95 tmpy = y0.dp;
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96 for (x = 0; x < B; x++) {
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97 *tmpx++ = *tmpa++;
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98 *tmpy++ = *tmpb++;
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99 }
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100
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101 tmpx = x1.dp;
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102 for (x = B; x < a->used; x++) {
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103 *tmpx++ = *tmpa++;
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104 }
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105
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106 tmpy = y1.dp;
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107 for (x = B; x < b->used; x++) {
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108 *tmpy++ = *tmpb++;
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109 }
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110 }
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111
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112 /* only need to clamp the lower words since by definition the
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113 * upper words x1/y1 must have a known number of digits
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114 */
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115 mp_clamp (&x0);
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116 mp_clamp (&y0);
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117
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118 /* now calc the products x0y0 and x1y1 */
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119 /* after this x0 is no longer required, free temp [x0==t2]! */
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120 if (mp_mul (&x0, &y0, &x0y0) != MP_OKAY)
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121 goto X1Y1; /* x0y0 = x0*y0 */
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122 if (mp_mul (&x1, &y1, &x1y1) != MP_OKAY)
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123 goto X1Y1; /* x1y1 = x1*y1 */
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124
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125 /* now calc x1-x0 and y1-y0 */
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126 if (mp_sub (&x1, &x0, &t1) != MP_OKAY)
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127 goto X1Y1; /* t1 = x1 - x0 */
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128 if (mp_sub (&y1, &y0, &x0) != MP_OKAY)
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129 goto X1Y1; /* t2 = y1 - y0 */
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130 if (mp_mul (&t1, &x0, &t1) != MP_OKAY)
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131 goto X1Y1; /* t1 = (x1 - x0) * (y1 - y0) */
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132
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133 /* add x0y0 */
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134 if (mp_add (&x0y0, &x1y1, &x0) != MP_OKAY)
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135 goto X1Y1; /* t2 = x0y0 + x1y1 */
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136 if (mp_sub (&x0, &t1, &t1) != MP_OKAY)
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137 goto X1Y1; /* t1 = x0y0 + x1y1 - (x1-x0)*(y1-y0) */
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138
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139 /* shift by B */
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140 if (mp_lshd (&t1, B) != MP_OKAY)
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141 goto X1Y1; /* t1 = (x0y0 + x1y1 - (x1-x0)*(y1-y0))<<B */
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142 if (mp_lshd (&x1y1, B * 2) != MP_OKAY)
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143 goto X1Y1; /* x1y1 = x1y1 << 2*B */
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144
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145 if (mp_add (&x0y0, &t1, &t1) != MP_OKAY)
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146 goto X1Y1; /* t1 = x0y0 + t1 */
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147 if (mp_add (&t1, &x1y1, c) != MP_OKAY)
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148 goto X1Y1; /* t1 = x0y0 + t1 + x1y1 */
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149
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150 /* Algorithm succeeded set the return code to MP_OKAY */
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151 err = MP_OKAY;
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152
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153 X1Y1:mp_clear (&x1y1);
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154 X0Y0:mp_clear (&x0y0);
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155 T1:mp_clear (&t1);
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156 Y1:mp_clear (&y1);
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157 Y0:mp_clear (&y0);
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158 X1:mp_clear (&x1);
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159 X0:mp_clear (&x0);
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160 ERR:
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161 return err;
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162 }
142
d29b64170cf0 import of libtommath 0.32
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parents: 2
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163 #endif