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source: branches/HeuristicLab.Problems.GrammaticalOptimization-gkr/HeuristicLab.Problems.GrammaticalOptimization/Sequence.cs @ 12448

Last change on this file since 12448 was 11793, checked in by gkronber, 10 years ago

#2283 fixed compile errors and refactoring

File size: 5.8 KB
Line 
1using System;
2using System.Collections;
3using System.Collections.Generic;
4using System.Diagnostics;
5using System.Linq;
6using System.Text;
7using System.Threading.Tasks;
8
9namespace HeuristicLab.Problems.GrammaticalOptimization {
10  // represents a sequence of symbols (non-terminal and terminal symbols)
11  // a sequence consisting only of terminal symbols can be a sentence of a language
12  // the class supports in-place manipulation of the sequence symbols (replace NT with another sequence)
13  // sequences provide efficient support left-canonical derivation by storing the index of the first non-terminal symbol
14  // maximal length of sequences is limited to 1000 symbols
15
16  // for symbols the same assumptions for the implementation of grammars apply
17  // - non-terminal symbols must be characters in the range [A..Z]
18  // - terminal symbols can be almost all other characters
19  public class Sequence : IEnumerable<char> {
20    private const int maxIdx = 200;
21
22    private int len;
23    private int idxOfFirstNt;
24    protected char[] symbols;
25
26    public virtual char this[int idx] {
27      get { return symbols[idx]; }
28      set { throw new NotSupportedException(); }
29    }
30
31    public int Length {
32      get { return len; }
33      protected set { len = value; }
34    }
35
36    public bool IsTerminal {
37      get { return idxOfFirstNt == -1; }
38    }
39
40    public int FirstNonTerminalIndex {
41      get { return idxOfFirstNt; }
42      protected set { idxOfFirstNt = value; }
43    }
44
45    public char FirstNonTerminal {
46      get { return this[idxOfFirstNt]; }
47    }
48
49    private Sequence(int maxLength) {
50      this.symbols = new char[maxLength];
51    }
52
53    // create a sequence from a character
54    public Sequence(char ch)
55      : this(ch, maxIdx + 1) {
56    }
57
58    protected Sequence(char ch, int maxLength)
59      : this(maxLength) {
60      this.len = 1;
61      symbols[0] = ch;
62
63      if (ch >= 'A' && ch <= 'Z') idxOfFirstNt = 0;
64      else idxOfFirstNt = -1;
65    }
66
67    // create a sequence from a string
68    public Sequence(string s) : this(s, maxIdx + 1) { }
69    protected Sequence(string s, int maxLength)
70      : this(maxLength) {
71      if (string.IsNullOrEmpty(s)) throw new ArgumentException();
72      if (s.Length > (maxIdx + 1)) throw new ArgumentException();
73      this.len = s.Length;
74      this.idxOfFirstNt = -1;
75
76      for (int i = 0; i < len; i++) {
77        symbols[i] = s[i];
78        if (idxOfFirstNt == -1 && symbols[i] >= 'A' && symbols[i] <= 'Z') {
79          idxOfFirstNt = i;
80        }
81      }
82    }
83
84    // cloning ctor
85    public Sequence(Sequence original) : this(original, maxIdx + 1) { }
86    protected Sequence(Sequence original, int maxLength)
87      : this(maxLength) {
88      this.len = original.len;
89      Array.Copy(original.symbols, this.symbols, len);
90      this.idxOfFirstNt = original.idxOfFirstNt;
91    }
92
93    // empty constructor does not allocate the symbol array
94    protected Sequence() { }
95
96    public virtual void ReplaceAt(int position, int len, Sequence replacement) {
97      if (replacement == null) throw new ArgumentNullException();
98      if (len <= 0) throw new ArgumentException();
99      if (position + len >= maxIdx) throw new ArgumentException();
100      if (Length - len + replacement.Length > (maxIdx + 1)) throw new ArgumentException();
101      var lenDelta = replacement.Length - len;
102      var remainingPartLen = Length - position - len;
103      var startIdxOfRemainingPart = position + len + lenDelta;
104      Array.Copy(symbols, position + len, symbols, startIdxOfRemainingPart, remainingPartLen);
105      Array.Copy(replacement.symbols, 0, symbols, position, replacement.Length);
106
107      this.len = Length + lenDelta;
108      // when the first part contains an NT then it's not necessary to update the index
109      if (idxOfFirstNt >= 0 && idxOfFirstNt < position) return;
110      // if the replacement contains an NT then we can directly calculate the idx of that NT in the new sequence
111      if (replacement.idxOfFirstNt >= 0) {
112        this.idxOfFirstNt = position + replacement.idxOfFirstNt;
113      } else {
114        // otherwise we must find the first NT in the remaining part
115        idxOfFirstNt = -1;
116        for (int i = startIdxOfRemainingPart; idxOfFirstNt == -1 && i < Length; i++) {
117          if (this[i] >= 'A' && this[i] <= 'Z') idxOfFirstNt = i;
118        }
119      }
120    }
121
122    public virtual IEnumerator<char> GetEnumerator() {
123      return symbols.AsEnumerable().Take(len).GetEnumerator();
124    }
125
126    public override string ToString() {
127      var sb = new StringBuilder(len);
128      sb.Append(symbols, 0, len);
129      return sb.ToString();
130    }
131
132    IEnumerator IEnumerable.GetEnumerator() {
133      return GetEnumerator();
134    }
135
136    public Sequence Subsequence(int startIdx, int len) {
137      if (startIdx < 0 || len < 0) throw new ArgumentException();
138      if (startIdx >= this.len) throw new ArgumentException();
139      if (startIdx + len > this.len) throw new ArgumentException();
140      var subsequence = new Sequence(maxIdx + 1) { len = len };
141
142      Array.Copy(this.symbols, startIdx, subsequence.symbols, 0, len);
143      if (idxOfFirstNt < 0) {
144        subsequence.idxOfFirstNt = -1;
145      } else if (idxOfFirstNt < startIdx) {
146        // need to find first nt in subsequence
147        subsequence.idxOfFirstNt = -1;
148        for (int i = 0; subsequence.idxOfFirstNt == -1 && i < len; i++) {
149          if (subsequence[i] >= 'A' && subsequence[i] <= 'Z') subsequence.idxOfFirstNt = i;
150        }
151      } else if (idxOfFirstNt >= startIdx && idxOfFirstNt < startIdx + len) {
152        subsequence.idxOfFirstNt = idxOfFirstNt - startIdx;
153      } else {
154        Debug.Assert(idxOfFirstNt >= startIdx + len);
155        subsequence.idxOfFirstNt = -1;
156      }
157      return subsequence;
158    }
159  }
160}
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