CompilerLocalReference.cs source code in C# .NET

Source code for the .NET framework in C#

                        

Code:

/ Net / Net / 3.5.50727.3053 / DEVDIV / depot / DevDiv / releases / Orcas / SP / wpf / src / BuildTasks / MS / Internal / Tasks / CompilerLocalReference.cs / 1 / CompilerLocalReference.cs

                            //----------------------------------------------------------------------------------------
//
// 
//    Copyright (C) Microsoft Corporation.  All rights reserved. 
// 
// 
// Description: 
//       this internal class handles cache for xaml files which
//       want to reference local types. 
//
//  History:
//
//  11/21/05: weibz   Created 
//
//--------------------------------------------------------------------------------------- 
 
using System;
using System.IO; 
using System.Collections;
using System.Diagnostics;
using System.Text;
 
using Microsoft.Build.Tasks.Windows;
using Microsoft.Build.Framework; 
using Microsoft.Build.Utilities; 
using MS.Utility;
 
namespace MS.Internal.Tasks
{
    // 
    // LocalReferenceFile 
    // This class keeps xaml file path and whether it is localizable.
    //  
    internal class LocalReferenceFile 
    {
        private bool   _localizable; 
        private string _filePath;

        private const char trueChar  = 'T';
        private const char falseChar = 'F'; 

        internal LocalReferenceFile(string filepath, bool localizable) 
        { 
            _localizable = localizable;
            _filePath   = filepath; 
        }

        internal bool Localizable
        { 
            get { return _localizable; }
        } 
 
        internal string FilePath
        { 
            get { return _filePath; }
        }

        // 
        // Serialize the instance to a string so that it can saved into a cache file.
        // 
        internal string Serialize() 
        {
            string cacheText = String.Empty; 

            if (!String.IsNullOrEmpty(FilePath))
            {
                StringBuilder sb = new StringBuilder(); 

                if (Localizable) 
                { 
                    sb.Append(trueChar);
                } 
                else
                {
                    sb.Append(falseChar);
                } 

                sb.Append(FilePath); 
 
                cacheText = sb.ToString();
            } 

            return cacheText;
        }
 
        //
        // Create instance from a cache text string. 
        // 
        internal static LocalReferenceFile Deserialize(string cacheInfo)
        { 
            // cachInfo string must follow pattern like Localizable + FilePath.
            // Localizable contains one character.
            LocalReferenceFile lrf = null;
 
            if (!String.IsNullOrEmpty(cacheInfo))
            { 
                bool  localizable; 
                string filePath;
 
                localizable = (cacheInfo[0] == trueChar) ? true : false;

                filePath = cacheInfo.Substring(1);
 
                lrf = new LocalReferenceFile(filePath, localizable);
            } 
 
            return lrf;
        } 
    }

    // 
    // CompilerLocalReference 
    // 
    internal class CompilerLocalReference 
    { 
        // 
        // ctor of CompilerLocalReference 
        // 
        internal CompilerLocalReference(string localCacheFile, ITaskFileService taskFileService)
        {
            _localCacheFile = localCacheFile; 
            _taskFileService = taskFileService;
        } 
 
        #region internal methods
 
        // 
        // Detect whether the local cache file exists or not.
        // 
        //  
        internal bool CacheFileExists()
        { 
            return _taskFileService.Exists(_localCacheFile); 
        }
 
        //
        // Clean up the state file.
        //
        internal void CleanupCache() 
        {
            if (CacheFileExists()) 
            { 
                _taskFileService.Delete(_localCacheFile);
            } 
        }

        //
        // Save the local reference related information  from MarkupCompilePass1 task to cache file. 
        //
        internal bool SaveCacheInformation(MarkupCompilePass1 mcPass1) 
        { 
            Debug.Assert(String.IsNullOrEmpty(_localCacheFile) != true, "_localCacheFile must not be empty.");
            Debug.Assert(mcPass1 != null, "A valid instance of MarkupCompilePass1 must be passed to method SaveCacheInformation."); 

            bool bSuccess = false;

            // Transfer the cache related information from mcPass1 to this instance. 

            LocalApplicationFile = mcPass1.LocalApplicationFile; 
            LocalMarkupPages = mcPass1.LocalMarkupPages; 

            // Save the cache information to the cache file. 

            MemoryStream memStream = new MemoryStream();

            // using Disposes the StreamWriter when it ends.  Disposing the StreamWriter 
            // also closes the underlying MemoryStream.  Furthermore, don't add BOM here
            // since TaskFileService.WriteFile adds it. 
            using (StreamWriter sw = new StreamWriter(memStream, new UTF8Encoding(false))) 
            {
                // Write InternalTypeHelperFile only when Pass1 asks Pass2 to do further check. 
                if (mcPass1.FurtherCheckInternalTypeHelper)
                {
                    sw.WriteLine(mcPass1.InternalTypeHelperFile);
                } 
                else
                { 
                    sw.WriteLine(String.Empty); 
                }
 
                // Write the ApplicationFile for Pass2 compilation.
                if (LocalApplicationFile == null)
                {
                    sw.WriteLine(String.Empty); 
                }
                else 
                { 
                    sw.WriteLine(LocalApplicationFile.Serialize());
                } 

                if (LocalMarkupPages != null && LocalMarkupPages.Length > 0)
                {
                    for (int i = 0; i < LocalMarkupPages.Length; i++) 
                    {
                        sw.WriteLine(LocalMarkupPages[i].Serialize( )); 
                    } 
                }
 
                sw.Flush();
                _taskFileService.WriteFile(memStream.ToArray(), _localCacheFile);

                bSuccess = true; 
            }
 
            return bSuccess; 
        }
 
        //
        // Read the Local Reference cache file, load the cached information
        // to the corresponding data fields in this class.
        // 
        internal bool LoadCacheFile()
        { 
            Debug.Assert(String.IsNullOrEmpty(_localCacheFile) != true, "_localCacheFile must not be empty."); 

            bool loadSuccess = false; 

            Stream stream = _taskFileService.GetContent(_localCacheFile);

            // using Disposes the StreamReader when it ends.  Disposing the StreamReader 
            // also closes the underlying MemoryStream.  Don't look for BOM at the beginning
            // of the stream, since we don't add it when writing.  TaskFileService takes care 
            // of this. 
            using (StreamReader srCache = new StreamReader(stream, false))
            { 
                // The first line must be for InternalTypeHelperFile.
                // The second line is for Local Application Defintion file.
                // For Library, the second line is an empty line.
 
                InternalTypeHelperFile = srCache.ReadLine();
 
                string lineText; 

                lineText = srCache.ReadLine(); 

                LocalApplicationFile = LocalReferenceFile.Deserialize(lineText);

                ArrayList alMarkupPages = new ArrayList(); 

                while (srCache.EndOfStream != true) 
                { 
                    lineText = srCache.ReadLine();
                    LocalReferenceFile lrf = LocalReferenceFile.Deserialize(lineText); 

                    if (lrf != null)
                    {
                        alMarkupPages.Add(lrf); 
                    }
                } 
 
                if (alMarkupPages.Count > 0)
                { 
                    LocalMarkupPages = (LocalReferenceFile []) alMarkupPages.ToArray(typeof(LocalReferenceFile));
                }

                loadSuccess = true; 
            }
 
            return loadSuccess; 

        } 

        #endregion

        #region internal properties 

        internal string CacheFilePath 
        { 
            get { return _localCacheFile; }
        } 

        internal  LocalReferenceFile LocalApplicationFile
        {
            get { return _localApplicationFile; } 
            set { _localApplicationFile = value; }
        } 
 
        internal LocalReferenceFile[] LocalMarkupPages
        { 
            get { return _localMarkupPages; }
            set { _localMarkupPages = value; }
        }
 
        //
        // InternalTypeHelper file path. 
        // 
        // Since Pass2 task doesn't know the code language, it could not generate the real
        // InternalTypeHelper code file path on the fly. 
        // The real file path would be passed from Pass1 task to Pass2 through the cache file.
        //
        // If this file path is set in the cache file, it means Pass1 asks Passs2 to do the further
        // check for this file to see if it is really required, if this file is required for the assembly, 
        // Pass2 then adds it to the appropriate output Item, otherwise, Pass2 just deletes this file.
        // 
        // If the path is empty, this means Pass1 has alreay known how to handle the file correctly, 
        // no further check is required in Pass2.
        // 
        internal string InternalTypeHelperFile
        {
            get { return _internalTypeHelperFile; }
            set { _internalTypeHelperFile = value; } 
        }
 
        #endregion 

        #region private data 

        private LocalReferenceFile    _localApplicationFile;
        private LocalReferenceFile[]  _localMarkupPages;
 
        private string                _localCacheFile;
        private string                _internalTypeHelperFile = String.Empty; 
        private ITaskFileService      _taskFileService = null; 

        #endregion 

    }
}

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
// Copyright (c) Microsoft Corporation. All rights reserved.
 
//----------------------------------------------------------------------------------------
//
// 
//    Copyright (C) Microsoft Corporation.  All rights reserved. 
// 
// 
// Description: 
//       this internal class handles cache for xaml files which
//       want to reference local types. 
//
//  History:
//
//  11/21/05: weibz   Created 
//
//--------------------------------------------------------------------------------------- 
 
using System;
using System.IO; 
using System.Collections;
using System.Diagnostics;
using System.Text;
 
using Microsoft.Build.Tasks.Windows;
using Microsoft.Build.Framework; 
using Microsoft.Build.Utilities; 
using MS.Utility;
 
namespace MS.Internal.Tasks
{
    // 
    // LocalReferenceFile 
    // This class keeps xaml file path and whether it is localizable.
    //  
    internal class LocalReferenceFile 
    {
        private bool   _localizable; 
        private string _filePath;

        private const char trueChar  = 'T';
        private const char falseChar = 'F'; 

        internal LocalReferenceFile(string filepath, bool localizable) 
        { 
            _localizable = localizable;
            _filePath   = filepath; 
        }

        internal bool Localizable
        { 
            get { return _localizable; }
        } 
 
        internal string FilePath
        { 
            get { return _filePath; }
        }

        // 
        // Serialize the instance to a string so that it can saved into a cache file.
        // 
        internal string Serialize() 
        {
            string cacheText = String.Empty; 

            if (!String.IsNullOrEmpty(FilePath))
            {
                StringBuilder sb = new StringBuilder(); 

                if (Localizable) 
                { 
                    sb.Append(trueChar);
                } 
                else
                {
                    sb.Append(falseChar);
                } 

                sb.Append(FilePath); 
 
                cacheText = sb.ToString();
            } 

            return cacheText;
        }
 
        //
        // Create instance from a cache text string. 
        // 
        internal static LocalReferenceFile Deserialize(string cacheInfo)
        { 
            // cachInfo string must follow pattern like Localizable + FilePath.
            // Localizable contains one character.
            LocalReferenceFile lrf = null;
 
            if (!String.IsNullOrEmpty(cacheInfo))
            { 
                bool  localizable; 
                string filePath;
 
                localizable = (cacheInfo[0] == trueChar) ? true : false;

                filePath = cacheInfo.Substring(1);
 
                lrf = new LocalReferenceFile(filePath, localizable);
            } 
 
            return lrf;
        } 
    }

    // 
    // CompilerLocalReference 
    // 
    internal class CompilerLocalReference 
    { 
        // 
        // ctor of CompilerLocalReference 
        // 
        internal CompilerLocalReference(string localCacheFile, ITaskFileService taskFileService)
        {
            _localCacheFile = localCacheFile; 
            _taskFileService = taskFileService;
        } 
 
        #region internal methods
 
        // 
        // Detect whether the local cache file exists or not.
        // 
        //  
        internal bool CacheFileExists()
        { 
            return _taskFileService.Exists(_localCacheFile); 
        }
 
        //
        // Clean up the state file.
        //
        internal void CleanupCache() 
        {
            if (CacheFileExists()) 
            { 
                _taskFileService.Delete(_localCacheFile);
            } 
        }

        //
        // Save the local reference related information  from MarkupCompilePass1 task to cache file. 
        //
        internal bool SaveCacheInformation(MarkupCompilePass1 mcPass1) 
        { 
            Debug.Assert(String.IsNullOrEmpty(_localCacheFile) != true, "_localCacheFile must not be empty.");
            Debug.Assert(mcPass1 != null, "A valid instance of MarkupCompilePass1 must be passed to method SaveCacheInformation."); 

            bool bSuccess = false;

            // Transfer the cache related information from mcPass1 to this instance. 

            LocalApplicationFile = mcPass1.LocalApplicationFile; 
            LocalMarkupPages = mcPass1.LocalMarkupPages; 

            // Save the cache information to the cache file. 

            MemoryStream memStream = new MemoryStream();

            // using Disposes the StreamWriter when it ends.  Disposing the StreamWriter 
            // also closes the underlying MemoryStream.  Furthermore, don't add BOM here
            // since TaskFileService.WriteFile adds it. 
            using (StreamWriter sw = new StreamWriter(memStream, new UTF8Encoding(false))) 
            {
                // Write InternalTypeHelperFile only when Pass1 asks Pass2 to do further check. 
                if (mcPass1.FurtherCheckInternalTypeHelper)
                {
                    sw.WriteLine(mcPass1.InternalTypeHelperFile);
                } 
                else
                { 
                    sw.WriteLine(String.Empty); 
                }
 
                // Write the ApplicationFile for Pass2 compilation.
                if (LocalApplicationFile == null)
                {
                    sw.WriteLine(String.Empty); 
                }
                else 
                { 
                    sw.WriteLine(LocalApplicationFile.Serialize());
                } 

                if (LocalMarkupPages != null && LocalMarkupPages.Length > 0)
                {
                    for (int i = 0; i < LocalMarkupPages.Length; i++) 
                    {
                        sw.WriteLine(LocalMarkupPages[i].Serialize( )); 
                    } 
                }
 
                sw.Flush();
                _taskFileService.WriteFile(memStream.ToArray(), _localCacheFile);

                bSuccess = true; 
            }
 
            return bSuccess; 
        }
 
        //
        // Read the Local Reference cache file, load the cached information
        // to the corresponding data fields in this class.
        // 
        internal bool LoadCacheFile()
        { 
            Debug.Assert(String.IsNullOrEmpty(_localCacheFile) != true, "_localCacheFile must not be empty."); 

            bool loadSuccess = false; 

            Stream stream = _taskFileService.GetContent(_localCacheFile);

            // using Disposes the StreamReader when it ends.  Disposing the StreamReader 
            // also closes the underlying MemoryStream.  Don't look for BOM at the beginning
            // of the stream, since we don't add it when writing.  TaskFileService takes care 
            // of this. 
            using (StreamReader srCache = new StreamReader(stream, false))
            { 
                // The first line must be for InternalTypeHelperFile.
                // The second line is for Local Application Defintion file.
                // For Library, the second line is an empty line.
 
                InternalTypeHelperFile = srCache.ReadLine();
 
                string lineText; 

                lineText = srCache.ReadLine(); 

                LocalApplicationFile = LocalReferenceFile.Deserialize(lineText);

                ArrayList alMarkupPages = new ArrayList(); 

                while (srCache.EndOfStream != true) 
                { 
                    lineText = srCache.ReadLine();
                    LocalReferenceFile lrf = LocalReferenceFile.Deserialize(lineText); 

                    if (lrf != null)
                    {
                        alMarkupPages.Add(lrf); 
                    }
                } 
 
                if (alMarkupPages.Count > 0)
                { 
                    LocalMarkupPages = (LocalReferenceFile []) alMarkupPages.ToArray(typeof(LocalReferenceFile));
                }

                loadSuccess = true; 
            }
 
            return loadSuccess; 

        } 

        #endregion

        #region internal properties 

        internal string CacheFilePath 
        { 
            get { return _localCacheFile; }
        } 

        internal  LocalReferenceFile LocalApplicationFile
        {
            get { return _localApplicationFile; } 
            set { _localApplicationFile = value; }
        } 
 
        internal LocalReferenceFile[] LocalMarkupPages
        { 
            get { return _localMarkupPages; }
            set { _localMarkupPages = value; }
        }
 
        //
        // InternalTypeHelper file path. 
        // 
        // Since Pass2 task doesn't know the code language, it could not generate the real
        // InternalTypeHelper code file path on the fly. 
        // The real file path would be passed from Pass1 task to Pass2 through the cache file.
        //
        // If this file path is set in the cache file, it means Pass1 asks Passs2 to do the further
        // check for this file to see if it is really required, if this file is required for the assembly, 
        // Pass2 then adds it to the appropriate output Item, otherwise, Pass2 just deletes this file.
        // 
        // If the path is empty, this means Pass1 has alreay known how to handle the file correctly, 
        // no further check is required in Pass2.
        // 
        internal string InternalTypeHelperFile
        {
            get { return _internalTypeHelperFile; }
            set { _internalTypeHelperFile = value; } 
        }
 
        #endregion 

        #region private data 

        private LocalReferenceFile    _localApplicationFile;
        private LocalReferenceFile[]  _localMarkupPages;
 
        private string                _localCacheFile;
        private string                _internalTypeHelperFile = String.Empty; 
        private ITaskFileService      _taskFileService = null; 

        #endregion 

    }
}

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
// Copyright (c) Microsoft Corporation. All rights reserved.
                        

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