1Set::Infinite::Basic(3)User Contributed Perl DocumentatioSnet::Infinite::Basic(3)
2
3
4
6 Set::Infinite::Basic - Sets of intervals 6 =head1 SYNOPSIS
7
8 use Set::Infinite::Basic;
9
10 $set = Set::Infinite::Basic->new(1,2); # [1..2]
11 print $set->union(5,6); # [1..2],[5..6]
12
14 Set::Infinite::Basic is a Set Theory module for infinite sets.
15
16 It works on reals, integers, and objects.
17
18 This module does not support recurrences. Recurrences are implemented
19 in Set::Infinite.
20
22 empty_set
23 Creates an empty_set.
24
25 If called from an existing set, the empty set inherits the "type" and
26 "density" characteristics.
27
28 universal_set
29 Creates a set containing "all" possible elements.
30
31 If called from an existing set, the universal set inherits the "type"
32 and "density" characteristics.
33
34 until
35 Extends a set until another:
36
37 0,5,7 -> until 2,6,10
38
39 gives
40
41 [0..2), [5..6), [7..10)
42
43 Note: this function is still experimental.
44
45 copy
46 clone
47 Makes a new object from the object's data.
48
49 Mode functions:
50 $set = $set->real;
51
52 $set = $set->integer;
53
54 Logic functions:
55 $logic = $set->intersects($b);
56
57 $logic = $set->contains($b);
58
59 $logic = $set->is_null; # also called "is_empty"
60
61 Set functions:
62 $set = $set->union($b);
63
64 $set = $set->intersection($b);
65
66 $set = $set->complement;
67 $set = $set->complement($b); # can also be called "minus" or "difference"
68
69 $set = $set->symmetric_difference( $b );
70
71 $set = $set->span;
72
73 result is (min .. max)
74
75 Scalar functions:
76 $i = $set->min;
77
78 $i = $set->max;
79
80 $i = $set->size;
81
82 $i = $set->count; # number of spans
83
84 Overloaded Perl functions:
85 print
86
87 sort, <=>
88
89 Global functions:
90 separators(@i)
91
92 chooses the interval separators.
93
94 default are [ ] ( ) '..' ','.
95
96 INFINITY
97
98 returns an 'Infinity' number.
99
100 NEG_INFINITY
101
102 returns a '-Infinity' number.
103
104 iterate ( sub { } )
105
106 Iterates over a subroutine.
107 Returns the union of partial results.
108
109 first
110
111 In scalar context returns the first interval of a set.
112
113 In list context returns the first interval of a set, and the
114 'tail'.
115
116 Works in unbounded sets
117
118 type($i)
119
120 chooses an object data type.
121
122 default is none (a normal perl SCALAR).
123
124 examples:
125
126 type('Math::BigFloat');
127 type('Math::BigInt');
128 type('Set::Infinite::Date');
129 See notes on Set::Infinite::Date below.
130
131 tolerance(0) defaults to real sets (default)
132 tolerance(1) defaults to integer sets
133
134 real defaults to real sets (default)
135
136 integer defaults to integer sets
137
138 Internal functions:
139 $set->fixtype;
140
141 $set->numeric;
142
144 $set = Set::Infinite->new(10,1);
145 Will be interpreted as [1..10]
146
147 $set = Set::Infinite->new(1,2,3,4);
148 Will be interpreted as [1..2],[3..4] instead of [1,2,3,4].
149 You probably want ->new([1],[2],[3],[4]) instead,
150 or maybe ->new(1,4)
151
152 $set = Set::Infinite->new(1..3);
153 Will be interpreted as [1..2],3 instead of [1,2,3].
154 You probably want ->new(1,3) instead.
155
157 The internal representation of a span is a hash:
158
159 { a => start of span,
160 b => end of span,
161 open_begin => '0' the span starts in 'a'
162 '1' the span starts after 'a'
163 open_end => '0' the span ends in 'b'
164 '1' the span ends before 'b'
165 }
166
167 For example, this set:
168
169 [100..200),300,(400..infinity)
170
171 is represented by the array of hashes:
172
173 list => [
174 { a => 100, b => 200, open_begin => 0, open_end => 1 },
175 { a => 300, b => 300, open_begin => 0, open_end => 0 },
176 { a => 400, b => infinity, open_begin => 0, open_end => 1 },
177 ]
178
179 The density of a set is stored in the "tolerance" variable:
180
181 tolerance => 0; # the set is made of real numbers.
182
183 tolerance => 1; # the set is made of integers.
184
185 The "type" variable stores the class of objects that will be stored in
186 the set.
187
188 type => 'DateTime'; # this is a set of DateTime objects
189
190 The infinity value is generated by Perl, when it finds a numerical
191 overflow:
192
193 $inf = 100**100**100;
194
196 Set::Infinite
197
199 Flavio S. Glock <fglock@gmail.com>
200
201
202
203perl v5.32.0 2020-07-28 Set::Infinite::Basic(3)