2015-02-12 75 views
-1

IEnumerable接口的類在編譯時出錯。錯誤:IEnumerable無法在非泛型靜態類中定義

擴展方法必須在非泛型靜態類

上請幫助定義。我不希望這個類是靜態的,這會導致更多的錯誤(在靜態類中不能定義的東西)。

非常感謝!

namespace phyl 
{ 
    public class DnaSequenceList : IEnumerable<DnaSequence> 
    { 
     // DNA sequences. 
     public DnaSequence[] mySequence; 
     // Mapping from site (index) to whether site is informative (true/false). If 
     // null, must be recomputed. 
     private bool[] isInformative; 
     // Number of informative sites. 
     private int nInformative; 
     // Number of state changes in uninformative sites. 
     private int nChanges; 

     /** 
     * Construct a new DNA sequence list. 
     */ 
     public DnaSequenceList() 
     { 
     } 
     /** 
     * Construct a new DNA sequence list that is a copy of the given DNA 
     * sequence list. 
     * <P> 
     * <I>Note:</I> The DNA sequences in the new list are copies of (not 
     * references to) the DNA sequences in the given list. 
     * 
     * @param list DNA sequence list to copy. 
     * 
     * @exception NullPointerException 
     * (unchecked exception) Thrown if <TT>list</TT> is null. 
     */ 
     public DnaSequenceList(DnaSequenceList list) 
     { 
      int N = list.mySequence.Length; 
      this.mySequence = new DnaSequence[N]; 
      for (int i = 0; i < N; ++i) 
      { 
       this.mySequence[i] = new DnaSequence(list.mySequence[i]); 
      } 
      if (list.isInformative != null) 
      { 
       this.isInformative = list.isInformative; 
      } 
      this.nInformative = list.nInformative; 
      this.nChanges = list.nChanges; 
     } 
     /** 
     * Obtain this DNA sequence list's length. 
     * 
     * @return Length <I>N</I> (number of DNA sequences). 
     */ 
     public int length() 
     { 
      return mySequence.Length; 
     } 

     /** 
     * Get the DNA sequence at the given index in this DNA sequence list. 
     * 
     * @param i Index, 0 &le; <TT>i</TT> &le; <I>N</I>&minus;1. 
     * 
     * @return DNA sequence. 
     * 
     * @exception ArrayIndexOutOfBoundsException 
     * (unchecked exception) Thrown if <TT>i</TT> is out of bounds. 
     */ 
     public DnaSequence seq(int i) 
     { 
      return mySequence[i]; 
     } 


     public int exciseUninformativeSites() 
     { 
      int S = mySequence.Length; 
      int N = mySequence[0].length(); 
      // Determine which sites are informative. 
      computeInformativeSites(); 
      // Excise uninformative sites from sequences. 
      for (int s = 0; s < S; ++s) 
      { 
       byte[] oldSites = mySequence[s].mySites; 
       mySequence[s] = new DnaSequence (nInformative,mySequence[s].myScore,mySequence[s].myName); 
       byte[] excSites = mySequence[s].mySites; 
       int j = 0; 
       for (int i = 0; i < N; ++i) 
       { 
        if (isInformative[i]) 
        { 
         excSites[j++] = oldSites[i]; 
        } 
       } 
      } 
      // Mark all sites as informative. 
      isInformative = new bool[nInformative]; 
      ArraysFill(isInformative, true); 
      // Return number of state changes. 
      return nChanges; 
     } 

     /** 
     * Returns the number of informative sites in this DNA sequence list. 
     * 
     * @return Number of informative sites. 
     */ 
     public int informativeSiteCount() 
     { 
      computeInformativeSites(); 
      return nInformative; 
     } 

     /** 
     * Compute information about informative sites. 
     */ 
     private void computeInformativeSites() 
     { 
      if (isInformative != null) return; 
      int S = mySequence.Length; 
      int N = mySequence[0].length(); 
      // Allocate storage to remember each site's category: true = 
      // informative, false = uninformative. Also count number of informative 
      // sites and number of state changes in uninformative sites. 
      isInformative = new bool[N]; 
      nInformative = 0; 
      nChanges = 0; 
      // Allocate storage to count states at each site. 
      int[] stateCount = new int[16]; 
      // Examine all sites. 
      for (int i = 0; i < N; ++i) 
      { 
       ArraysFill(stateCount, 0); 
       // Examine current site in all sequences. 
       for (int s = 0; s < S; ++s) 
       { 
        ++stateCount[mySequence[s].mySites[i]]; 
       } 
       // Count how many values in stateCount are 2 or greater. 
       int x = 0; 
       for (int j = 0; j < 16; ++j) 
       { 
        if (stateCount[j] >= 2) ++x; 
       } 
       // Categorize current site. 
       if (x >= 2) 
       { 
        // Informative site. 
        isInformative[i] = true; 
        ++nInformative; 
       } 
       else 
       { 
        // Uninformative site. Increase number of state changes by 
        // (number of different states - 1). 
        isInformative[i] = false; 
        for (int j = 0; j < 16; ++j) 
        { 
         if (stateCount[j] > 0) ++nChanges; 
        } 
        --nChanges; 
       } 
      } 
     } 

     /** 
     * Determine the number of absent states after adding each sequence in this 
     * DNA sequence list to a tree. The return value <I>A</I> is an 
     * <I>N</I>-element array, where <I>N</I> is the length of this DNA sequence 
     * list. As sequences from this list are added to a tree in order from 
     * <I>i</I> = 0 to <I>N</I>&minus;1, <I>A</I>[<I>i</I>] is the number of 
     * character states that do not yet appear in the tree. Thus, the number of 
     * state changes in the tree must increase by at least <I>A</I>[<I>i</I>] 
     * when the sequences after sequence <I>i</I> are added to the tree. This 
     * can be used to prune a branch-and-bound search. 
     * 
     * @return Array <I>A</I>. 
     */ 
     public int[] countAbsentStates() 
     { 
      int N = mySequence.Length; 
      int L = mySequence[0].length(); 
      int[] A = new int[N]; 

      // Compute the union of all the DNA sequences. 
      byte[] sites = new byte[L]; 
      for (int i = 0; i < N; ++i) 
      { 
       byte[] mysites_i = mySequence[i].mySites; 
       for (int j = 0; j < L; ++j) 
       { 
        sites[j] |= mysites_i[j]; 
       } 
      } 

      // Subtract each sequence from the union, count and record states. 
      for (int i = 0; i < N; ++i) 
      { 
       byte[] mysites_i = mySequence[i].mySites; 
       int count = 0; 
       for (int j = 0; j < L; ++j) 
       { 
        sites[j] &= mysites_i[j]; 
        count += DnaSequence.state2bitCount[sites[j]]; 
       } 
       A[i] = count; 
      } 

      return A; 
     } 

     /** 
     * Create a DNA sequence tree from this DNA sequence list and the given tree 
     * signature. The tree signature is an array of indexes of length <I>N</I>, 
     * where <I>N</I> is the length of this list. To construct the tree, for all 
     * <I>i</I> from 0 to <I>N</I>&minus;1, the DNA sequence at index <I>i</I> 
     * in this list is added to the tree at index <TT>signature[i]</TT> using 
     * the <TT>DnaSequenceTree.add()</TT> method. For all <I>i</I>, 
     * <TT>signature[i]</TT> must be in the range 0 .. 
     * 2(<I>i</I>&nbsp;&minus;&nbsp;1), except <TT>signature[0]</TT> is 0. 
     * <P> 
     * <I>Note:</I> The returned tree has references to (not copies of) the DNA 
     * sequences in this list. 
     * 
     * @param signature Tree signature (array of tree indexes). 
     * 
     * @return Tree. 
     */ 
     public DnaSequenceTree toTree(int[] signature) 
     { 
      int N = mySequence.Length; 
      DnaSequenceTree tree = new DnaSequenceTree(2 * N - 1); 
      for (int i = 0; i < N; ++i) 
      { 
       tree.add(signature[i], mySequence[i]); 
      } 
      return tree; 
     } 


     public static void ArraysFill<T>(this T[] originalArray, T with) 
     { 
      for (int i = 0; i < originalArray.Length; i++) 
      { 
       originalArray[i] = with; 
      } 
     } 
     /// <summary> 
     /// ////////////////////////////////////////////////////////////// 
     /// </summary> 
     /// <returns></returns> 
     // Implementation for the GetEnumerator method. 
     IEnumerator IEnumerable.GetEnumerator() 
     { 
      return (IEnumerator)GetEnumerator(); 
     } 

     public DnaSequenceEnum GetEnumerator() 
     { 
      return new DnaSequenceEnum(mySequence); 
     } 


    } 

    // When you implement IEnumerable, you must also implement IEnumerator. 
    public class DnaSequenceEnum : IEnumerator 
    { 
     public DnaSequence[] _DnaSequenceList; 

     // Enumerators are positioned before the first element 
     // until the first MoveNext() call. 
     int i = 0; 

     public DnaSequenceEnum(DnaSequence[] list) 
     { 
      _DnaSequenceList = list; 
     } 

     public bool MoveNext() 
     { 
      i++; 
      return i < _DnaSequenceList.Length; 
     } 

     public DnaSequence next() 
     { 

      return _DnaSequenceList[i++]; 
     } 

     public void remove() 
     { 
      throw new NotSupportedException(); 
     } 
     public DnaSequence Current 
     { 
      get 
      { 
       try 
       { 
        return _DnaSequenceList[i]; 
       } 
       catch (IndexOutOfRangeException) 
       { 
        throw new InvalidOperationException(); 
       } 
      } 
     } 
     object IEnumerator.Current { get { return Current; } } 

     public void Reset() 
     { 
      i = -1; 
     } 

    } 

} 
+5

SO是一個問答站點,而不是客戶支持。有耐心... – 2015-02-12 04:17:45

回答

1

您的ArrayFill(...)方法是一種擴展方法。擴展方法必須在靜態和非泛型類中創建。創建一個新的靜態類,並在其中移動你的方法。

public static class ExtensionMethod 
{ 
    public static void ArraysFill<T>(this T[] originalArray, T with) 
    { 
     for (int i = 0; i < originalArray.Length; i++) 
     { 
      originalArray[i] = with; 
     } 
    } 
} 
+0

我刪除了數組填充,但得到了另一個錯誤:'phyl.DnaSequenceList'沒有實現接口成員'System.Collections.Generic.IEnumerable .GetEnumerator()'。 'phyl.DnaSequenceList.GetEnumerator()'不能實現'System.Collections.Generic.IEnumerable .GetEnumerator()',因爲它沒有匹配的返回類型'System.Collections.Generic.IEnumerator - – 2015-02-12 04:36:34

2

正是錯誤所說 - 你有一個非靜態類的擴展方法。擴展方法必須在靜態類中。無論它移動到不同的靜態類或使一個普通的方法(通過去除this

既然你不調用方法的延伸,但稱這是作爲一個正常的方法,我只想從刪除this第一個參數ArraysFill

+0

我刪除了數組填充,但得到了另一個錯誤:'phyl.DnaSequenceList'沒有實現接口成員'System.Collections.Generic.IEnumerable .GetEnumerator()'。 'phyl.DnaSequenceList.GetEnumerator()'不能實現'System.Collections.Generic.IEnumerable .GetEnumerator()',因爲它沒有匹配的返回類型'System.Collections.Generic.IEnumerator 2015-02-12 04:35:33

+0

你的第二個'GetEnumerator'方法不正確。它需要返回一個'IEnumerator ' – 2015-02-12 04:40:21

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