Sets and sequences: Difference between revisions

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# A '''partition''' of a finite or infinite set <math>S</math> is a family <math>\{S_i|i\in I\}</math> of subsets of <math>S</math> such that <math> V_i\cap V_j=\emptyset</math> for all <math>i,j\in I</math>, <math>i\neq j</math>, and <math>\bigcup_{i\in I}S_i=S</math>.
# A '''partition''' of a finite or infinite set <math>S</math> is a family <math>\{S_i|i\in I\}</math> of subsets of <math>S</math> such that <math> V_i\cap V_j=\emptyset</math> for all <math>i,j\in I</math>, <math>i\neq j</math>, and <math>\bigcup_{i\in I}S_i=S</math>.
# If <math>I</math> is finite, we speak of a <math>k</math>-partition, where <math>k=|I|</math>.
# If <math>I</math> is finite, we speak of a <math>k</math>-partition, where <math>k=|I|</math>.
# In particular, if <mathg>|I|=2</math>, we speak of a bipartition.
# In particular, if <math>|I|=2</math>, we speak of a bipartition.

Revision as of 13:20, 17 November 2014

Sets and multisets

  1. In a set, each element occurs at most once, that is, no duplications of elements within a set.
  2. In contrast, in a multiset, an element may occur more than once. The multiplicity of an element in a multiset is the number of its occurrences in that multiset.

Remark: In computer science, as opposed to math, sets and multisets are usually dynamic, that is, elements may be inserted and removed.

Maximal and minimal sets

Let [math]\displaystyle{ \mathcal{S} }[/math] be a set of (multi)sets.

  1. A set [math]\displaystyle{ S\in\mathcal{S} }[/math] is inclusion-minimal (resp., inclusion-maximal) if [math]\displaystyle{ S'\subsetneq S }[/math] (resp., [math]\displaystyle{ S'\supsetneq S }[/math]) for no [math]\displaystyle{ S'\in\mathcal{S}\setminus\{S\} }[/math].
  2. A set [math]\displaystyle{ S\in\mathcal{S} }[/math] is cardinality-minimal (resp., cardinality-maximal) if [math]\displaystyle{ |S'|\lt [S[ }[/math] (resp., [math]\displaystyle{ |S'|\gt |S| }[/math]) for no [math]\displaystyle{ S'\in\mathcal{S}\setminus\{S\} }[/math].

Remark: Typically, [math]\displaystyle{ \mathcal{S} }[/math] is given as all subsets of a ground set that fulfill a certain property.

Ordered and sorted sequences

An ordered sequence (or sequence, for short) is given by

  1. a number [math]\displaystyle{ n \in \N_{0} }[/math], its length,
  2. some component type [math]\displaystyle{ C }[/math], and
  3. a mapping [math]\displaystyle{ \pi : \{1,...,n\} \rightarrow C }[/math].

We say that [math]\displaystyle{ 1,...,n }[/math] are the positions in the sequence (a.k.a. the indexes). The element [math]\displaystyle{ \pi (i) }[/math] of sequence [math]\displaystyle{ S }[/math] at position [math]\displaystyle{ i }[/math] is denoted by [math]\displaystyle{ S[i] }[/math].

Consider a comparison [math]\displaystyle{ c }[/math] on [math]\displaystyle{ C }[/math], as introduced above. Then a sequence [math]\displaystyle{ S }[/math] of length [math]\displaystyle{ n }[/math] is sorted with respect to [math]\displaystyle{ c }[/math], if [math]\displaystyle{ S[i] \le S[i+1] }[/math] for all [math]\displaystyle{ i \in \{1,...,n-1\} }[/math].

Remarks:

  1. Note that the first position is [math]\displaystyle{ 1 }[/math], not [math]\displaystyle{ 0 }[/math], as opposed to array indexes in many popular programming languages such as C, C++, and Java.
  2. Like sets and multisets, sequences are dynamic.

Singleton, pair, triple

A set, multiset or sequence with only one, two or three elements is called a singleton, pair and triple, respectively.

Stacks and queues

  1. A stack (a.k.a. LIFO queue, LIFO = last-in-first-out) is a dynamic ordered sequence such that new elements may only be inserted at the beginning (the top), and no element except for the very first one may be accessed and removed.
  2. A queue (a.k.a. FIFO queue, FIFO = first-in-first-out) is a dynamic ordered sequence such that new elements may only be inserted at the end, and no element except for the very first one may be accessed and removed.

Maps

A map is given by

  1. a number [math]\displaystyle{ n \in \N_{0} }[/math], its size
  2. a key type [math]\displaystyle{ \mathcal{K} }[/math] and a value type [math]\displaystyle{ \mathcal{V} }[/math],
  3. a finite subset [math]\displaystyle{ K \subseteq \mathcal{K} }[/math], the map's keys, and
  4. a mapping [math]\displaystyle{ K \rightarrow \mathcal{V} }[/math], which assigns a value to each key in the map.

Remark: A sequence may also be a map, namely if its component type is [math]\displaystyle{ \mathcal{K} \times \mathcal{V} }[/math] and each value of [math]\displaystyle{ \mathcal{K} }[/math] occurs at most once.

Like sets, multisets and sequences, maps are dynamic.

Partitions

Let [math]\displaystyle{ I }[/math] ba a finite or infinite set of positive integral numbers.

  1. A partition of a finite or infinite set [math]\displaystyle{ S }[/math] is a family [math]\displaystyle{ \{S_i|i\in I\} }[/math] of subsets of [math]\displaystyle{ S }[/math] such that [math]\displaystyle{ V_i\cap V_j=\emptyset }[/math] for all [math]\displaystyle{ i,j\in I }[/math], [math]\displaystyle{ i\neq j }[/math], and [math]\displaystyle{ \bigcup_{i\in I}S_i=S }[/math].
  2. If [math]\displaystyle{ I }[/math] is finite, we speak of a [math]\displaystyle{ k }[/math]-partition, where [math]\displaystyle{ k=|I| }[/math].
  3. In particular, if [math]\displaystyle{ |I|=2 }[/math], we speak of a bipartition.