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Como: Consulta para os arquivos duplicados em uma árvore de diretório (LINQ)

Às vezes, os arquivos que têm o mesmo nome podem estar em mais de uma pasta. Por exemplo, sob a pasta de instalação do Visual Studio, várias pastas têm um arquivo readme. htm. Este exemplo mostra como consultar tais nomes de arquivo duplicado em uma pasta raiz especificada. O segundo exemplo mostra como consultar arquivos cujo tamanho e as horas de criação também fazer a correspondência.

Exemplo

Module QueryDuplicateFileNames


    Public Sub Main()

        Dim path As String = "C:\Program Files\Microsoft Visual Studio 9.0\Common7"
        QueryDuplicates1(path)
        ' Uncomment to run this query instead
        ' QueryDuplicates2(path)

    End Sub
    Sub QueryDuplicates1(ByVal root As String)
        Dim dir As New System.IO.DirectoryInfo(root)
        Dim duplicates = From aFile In dir.GetFiles("*.*", System.IO.SearchOption.AllDirectories) _
                                 Order By aFile.Name _
                                 Group aFile By aFile.Name Into newGroup = Group _
                                 Where newGroup.Count() >= 2 _
                                 Select newGroup

        ' Page the display so that the results can be read.
        Dim trimLength = root.Length
        PageOutput(duplicates, trimLength)

    End Sub
    Sub QueryDuplicates2(ByVal root As String)

        ' This time a composite key is used. This sub finds all files
        ' that have been copied into multiple subfolders.
        Dim dir As New System.IO.DirectoryInfo(root)

        Dim duplicates = From aFile In Dir.GetFiles("*.*", System.IO.SearchOption.AllDirectories) _
                                 Order By aFile.Name _
                                 Group aFile By aFile.Name, aFile.CreationTime, aFile.Length Into newGroup = Group _
                                 Where newGroup.Count() >= 2 _
                                 Select newGroup

        ' Page the display so that the results can be read.
        Dim trimLength = root.Length
        PageOutput(duplicates, trimLength)

    End Sub
    ' Pages console diplay for large query results. No more than one group per page.
    ' This sub specifically works with group queries of FileInfo objects
    ' but can be modified for any type.
    Sub PageOutput(ByVal groupQuery, ByVal charsToSkip)

        ' "3" = 1 line for extension key + 1 for "Press any key" + 1 for input cursor.
        Dim numLines As Integer = Console.WindowHeight - 3
        ' Flag to indicate whether there are more results to diplay
        Dim goAgain As Boolean = True

        For Each fg As IEnumerable(Of System.IO.FileInfo) In groupQuery
            ' Start a new extension at the top of a page.
            Dim currentLine As Integer = 0

            Do While (currentLine < fg.Count())
                Console.Clear()

                ' Get the next page of results
                ' No more than one filename per page
                Dim resultPage = From file In fg _
                                Skip currentLine Take numLines

                ' Execute the query. Trim the paths in the output.
                For Each line In resultPage
                    Console.WriteLine(vbTab & line.FullName.Substring(charsToSkip))
                Next

                ' Advance the current position
                currentLine = numLines + currentLine

                ' Give the user a chance to break out of the loop
                Console.WriteLine("Press any key for next page or the 'End' key to exit.")
                Dim key As ConsoleKey = Console.ReadKey().Key
                If key = ConsoleKey.End Then
                    goAgain = False
                    Exit For
                End If
            Loop
        Next
    End Sub
End Module
class QueryDuplicateFileNames
{
    static void Main(string[] args)
    {
        // Uncomment QueryDuplicates2 to run that query.
        QueryDuplicates();
        // QueryDuplicates2();

        // Keep the console window open in debug mode.
        Console.WriteLine("Press any key to exit.");
        Console.ReadKey();
    }

    static void QueryDuplicates()
    {
        // Change the root drive or folder if necessary
        string startFolder = @"c:\program files\Microsoft Visual Studio 9.0\";

        // Take a snapshot of the file system.
        System.IO.DirectoryInfo dir = new System.IO.DirectoryInfo(startFolder);

        // This method assumes that the application has discovery permissions
        // for all folders under the specified path.
        IEnumerable<System.IO.FileInfo> fileList = dir.GetFiles("*.*", System.IO.SearchOption.AllDirectories);

        // used in WriteLine to keep the lines shorter
        int charsToSkip = startFolder.Length;

        // var can be used for convenience with groups.
        var queryDupNames =
            from file in fileList
            group file.FullName.Substring(charsToSkip) by file.Name into fileGroup
            where fileGroup.Count() > 1
            select fileGroup;

        // Pass the query to a method that will
        // output one page at a time.
        PageOutput<string, string>(queryDupNames);
    }

    // A Group key that can be passed to a separate method.
    // Override Equals and GetHashCode to define equality for the key.
    // Override ToString to provide a friendly name for Key.ToString()
    class PortableKey
    {
        public string Name { get; set; }
        public DateTime CreationTime { get; set; }
        public long Length { get; set; }

        public override bool Equals(object obj)
        {
            PortableKey other = (PortableKey)obj;
            return other.CreationTime == this.CreationTime &&
                   other.Length == this.Length &&
                   other.Name == this.Name;
        }

        public override int GetHashCode()
        {
            string str = String.Format("{0}{1}{2}", this.CreationTime, this.Length, this.Name);
            return str.GetHashCode();
        }
        public override string ToString()
        {
            return String.Format("{0} {1} {2}", this.Name, this.Length, this.CreationTime);
        }
    }
    static void QueryDuplicates2()
    {
        // Change the root drive or folder if necessary.
        string startFolder = @"c:\program files\Microsoft Visual Studio 9.0\Common7";

        // Make the the lines shorter for the console display
        int charsToSkip = startFolder.Length;

        // Take a snapshot of the file system.
        System.IO.DirectoryInfo dir = new System.IO.DirectoryInfo(startFolder);
        IEnumerable<System.IO.FileInfo> fileList = dir.GetFiles("*.*", System.IO.SearchOption.AllDirectories);

        // Note the use of a compound key. Files that match
        // all three properties belong to the same group.
        // A named type is used to enable the query to be
        // passed to another method. Anonymous types can also be used
        // for composite keys but cannot be passed across method boundaries
        // 
        var queryDupFiles =
            from file in fileList
            group file.FullName.Substring(charsToSkip) by
                new PortableKey { Name = file.Name, CreationTime = file.CreationTime, Length = file.Length } into fileGroup
            where fileGroup.Count() > 1
            select fileGroup;

        var list = queryDupFiles.ToList();

        int i = queryDupFiles.Count();

        PageOutput<PortableKey, string>(queryDupFiles);
    }


    // A generic method to page the output of the QueryDuplications methods
    // Here the type of the group must be specified explicitly. "var" cannot
    // be used in method signatures. This method does not display more than one
    // group per page.
    private static void PageOutput<K, V>(IEnumerable<System.Linq.IGrouping<K, V>> groupByExtList)
    {
        // Flag to break out of paging loop.
        bool goAgain = true;

        // "3" = 1 line for extension + 1 for "Press any key" + 1 for input cursor.
        int numLines = Console.WindowHeight - 3;

        // Iterate through the outer collection of groups.
        foreach (var filegroup in groupByExtList)
        {
            // Start a new extension at the top of a page.
            int currentLine = 0;

            // Output only as many lines of the current group as will fit in the window.
            do
            {
                Console.Clear();
                Console.WriteLine("Filename = {0}", filegroup.Key.ToString() == String.Empty ? "[none]" : filegroup.Key.ToString());

                // Get 'numLines' number of items starting at number 'currentLine'.
                var resultPage = filegroup.Skip(currentLine).Take(numLines);

                //Execute the resultPage query
                foreach (var fileName in resultPage)
                {
                    Console.WriteLine("\t{0}", fileName);
                }

                // Increment the line counter.
                currentLine += numLines;

                // Give the user a chance to escape.
                Console.WriteLine("Press any key to continue or the 'End' key to break...");
                ConsoleKey key = Console.ReadKey().Key;
                if (key == ConsoleKey.End)
                {
                    goAgain = false;
                    break;
                }
            } while (currentLine < filegroup.Count());

            if (goAgain == false)
                break;
        }
    }
}

A primeira consulta usa uma chave simple para determinar uma correspondência; Isso localiza arquivos que tenham o mesmo nome mas cujo conteúdo pode ser diferente. A segunda consulta usa uma chave composta correspondência com três propriedades da FileInfo objeto. Essa consulta é muito mais provável localizar arquivos que tenham o mesmo nome e conteúdo semelhante ou idêntico.

Compilando o código

  • Criar um projetoVisual Studio que se destina a.NET Framework versão 3.5. Por padrão, o projeto tem uma referência a System.Core.dll e um using diretiva (C#) ou Imported namespace (Visual Basic) para o namespace System. LINQ. No C# projetos, adicione um using a diretiva para o namespace System. IO.

  • Copie este código em seu projeto.

  • Pressione F5 para compilar e executar o programa.

  • Pressione qualquer tecla para sair da janela do console.

Programação robusta

Para operações de consulta intensivo sobre o conteúdo de vários tipos de documentos e arquivos, considere o uso de O Windows Desktop Search engine.

Consulte também

Conceitos

LINQ para Objetos

LINQ e os diretórios de arquivos