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1 | /* -*-c-*- |
2 | * |
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3 | * $Id: mpmul.h,v 1.2 2004/04/08 01:36:15 mdw Exp $ |
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4 | * |
5 | * Multiply many small numbers together |
6 | * |
7 | * (c) 2000 Straylight/Edgeware |
8 | */ |
9 | |
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10 | /*----- Licensing notice --------------------------------------------------* |
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11 | * |
12 | * This file is part of Catacomb. |
13 | * |
14 | * Catacomb is free software; you can redistribute it and/or modify |
15 | * it under the terms of the GNU Library General Public License as |
16 | * published by the Free Software Foundation; either version 2 of the |
17 | * License, or (at your option) any later version. |
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18 | * |
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19 | * Catacomb is distributed in the hope that it will be useful, |
20 | * but WITHOUT ANY WARRANTY; without even the implied warranty of |
21 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
22 | * GNU Library General Public License for more details. |
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23 | * |
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24 | * You should have received a copy of the GNU Library General Public |
25 | * License along with Catacomb; if not, write to the Free |
26 | * Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, |
27 | * MA 02111-1307, USA. |
28 | */ |
29 | |
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30 | #ifndef CATACOMB_MPMUL_H |
31 | #define CATACOMB_MPMUL_H |
32 | |
33 | #ifdef __cplusplus |
34 | extern "C" { |
35 | #endif |
36 | |
37 | /*----- Header files ------------------------------------------------------*/ |
38 | |
39 | #ifndef CATACOMB_MP_H |
40 | # include "mp.h" |
41 | #endif |
42 | |
43 | /*----- Magic numbers -----------------------------------------------------*/ |
44 | |
45 | /* --- How the algorithm works --- * |
46 | * |
47 | * Multiplication on large integers is least wasteful when the numbers |
48 | * multiplied are approximately the same size. When a new multiplier is |
49 | * added to the system, we push it onto a stack. Then we `reduce' the stack: |
50 | * while the value on the top of the stack is not shorter than the value |
51 | * below it, replace the top two elements by their product. |
52 | * |
53 | * Let %$b$% be the radix of our multiprecision integers, and let %$Z$% be |
54 | * the maximum number of digits. Then the largest integer we can represent |
55 | * is %$M - 1 = b^Z - 1$%. We could assume that all of the integers we're |
56 | * given are about the same size. This would give us the same upper bound as |
57 | * that derived in `mptext.c'. |
58 | * |
59 | * However, we're in less control over our inputs. In particular, if a |
60 | * sequence of integers with strictly decreasing lengths is input then we're |
61 | * sunk. Suppose that the stack contains, from top to bottom, %$b^i$%, |
62 | * %$b^{i+1}$%, ..., %$b^n$%. The final product will therefore be |
63 | * %$p = b^{(n+i)(n-i+1)/2}$%. We must now find the maximum stack depth |
64 | * %$d = n - i$% such that %$p > M$%. |
65 | * |
66 | * Taking logs of both sides gives that %$(d + 2 i)(d + 1) > 2 Z$%. We can |
67 | * maximize %$d$% by taking %$i = 0$%, which gives that %$d^2 + d > 2 Z$%, so |
68 | * %$d$% must be approximately %$(\sqrt{8 Z + 1} - 1)/2$%, which is |
69 | * uncomfortably large. |
70 | * |
71 | * We compromise by choosing double the `mptext' bound and imposing high- and |
72 | * low-water marks for forced reduction. |
73 | */ |
74 | |
75 | #define MPMUL_DEPTH (2 * (CHAR_BIT * sizeof(size_t) + 10)) |
76 | |
77 | #define HWM (MPMUL_DEPTH - 20) |
78 | #define LWM (MPMUL_DEPTH / 2) |
79 | |
80 | /*----- Data structures ---------------------------------------------------*/ |
81 | |
82 | typedef struct mpmul { |
83 | size_t i; |
84 | mp *v[MPMUL_DEPTH]; |
85 | } mpmul; |
86 | |
87 | #define MPMUL_INIT { 0 } |
88 | |
89 | /*----- Functions provided ------------------------------------------------*/ |
90 | |
91 | /* --- @mpmul_init@ --- * |
92 | * |
93 | * Arguments: @mpmul *b@ = pointer to multiplier context to initialize |
94 | * |
95 | * Returns: --- |
96 | * |
97 | * Use: Initializes a big multiplier context for use. |
98 | */ |
99 | |
100 | extern void mpmul_init(mpmul */*b*/); |
101 | |
102 | /* --- @mpmul_add@ --- * |
103 | * |
104 | * Arguments: @mpmul *b@ = pointer to multiplier context |
105 | * @mp *x@ = the next factor to multiply in |
106 | * |
107 | * Returns: --- |
108 | * |
109 | * Use: Contributes another factor to the mix. It's important that |
110 | * the integer lasts at least as long as the multiplication |
111 | * context; this sort of rules out @mp_build@ integers. |
112 | */ |
113 | |
114 | extern void mpmul_add(mpmul */*b*/, mp */*x*/); |
115 | |
116 | /* --- @mpmul_done@ --- * |
117 | * |
118 | * Arguments: @mpmul *b@ = pointer to big multiplication context |
119 | * |
120 | * Returns: The product of all the numbers contributed. |
121 | * |
122 | * Use: Returns a (large) product of numbers. The context is |
123 | * deallocated. |
124 | */ |
125 | |
126 | extern mp *mpmul_done(mpmul */*b*/); |
127 | |
128 | /* --- @mp_factorial@ --- * |
129 | * |
130 | * Arguments: @unsigned long i@ = number whose factorial should be |
131 | * computed. |
132 | * |
133 | * Returns: The requested factorial. |
134 | */ |
135 | |
136 | extern mp *mp_factorial(unsigned long /*i*/); |
137 | |
138 | /*----- That's all, folks -------------------------------------------------*/ |
139 | |
140 | #ifdef __cplusplus |
141 | } |
142 | #endif |
143 | |
144 | #endif |