> ## Documentation Index
> Fetch the complete documentation index at: https://docs.abbyy.com/llms.txt
> Use this file to discover all available pages before exploring further.

# Text Extraction

> Extract the body text of a document with ABBYY FineReader Engine in natural reading order, ready to feed to NLP engines for summarization, search, or sentiment review.

This scenario enables the extraction of the body text of a document and texts on logos, seals, and on any elements other than the body text.

The natural order of the text "how a human would read it" is preserved. You can then feed the documents to natural language processing (NLP) engines on your side, for example, to be quickly summarized, searched for sensitive information, or go through a sentiment review.

To extract the main text of the document, image files obtained by scanning or saved in the electronic format typically go through several processing stages, each of which has its own peculiarities:

1. Preprocessing the scanned images or photos

   Scanned images may require some preprocessing prior to recognition, for example, if scanned documents contain background noise, skewed text, inverted colors, black margins, wrong orientation, or resolution.

2. Recognition of maximum amount of text on a document image

   Recognition of images is performed using settings that ensure that all possible text is found and extracted from a document image.

## Scenario implementation

<Note>
  The code samples provided in this topic are Windows -specific.
</Note>

Below is the detailed description of the recommended method of using ABBYY FineReader Engine 12 in this scenario. The proposed method uses processing settings that are most suitable for this scenario.

<Accordion title="Step 1. Loading ABBYY FineReader Engine">
  To start your work with ABBYY FineReader Engine, you need to create the [Engine](/fine-reader/engine/api-reference/engine-object-iengine-interface) object. The Engine object is the top object in the hierarchy of the ABBYY FineReader Engine objects and provides various global settings, some processing methods, and methods for creating the other objects.

  To create the Engine object, you can use the [InitializeEngine](/fine-reader/engine/api-reference/functions/initializeengine-function) function. See also [other ways to load Engine object](/fine-reader/engine/guided-tour/advanced-techniques/programming-aspects/different-ways-to-load-engine) (Win).

  ### C\#

  ```csharp theme={null}
  public class EngineLoader : IDisposable
  {
      public EngineLoader()
      {
          // Initialize these variables with the full path to FREngine.dll, your Customer Project ID,
          // and, if applicable, the path to your Online License token file and the Online License password
          string enginePath = "";
          string customerProjectId = "";
          string licensePath = "";
          string licensePassword = "";
          // Load the FREngine.dll library
          dllHandle = LoadLibraryEx(enginePath, IntPtr.Zero, LOAD_WITH_ALTERED_SEARCH_PATH);
             
          try
          {
              if (dllHandle == IntPtr.Zero)
              {
                  throw new Exception("Can't load " + enginePath);
              }
              IntPtr initializeEnginePtr = GetProcAddress(dllHandle, "InitializeEngine");
              if (initializeEnginePtr == IntPtr.Zero)
              {
                  throw new Exception("Can't find InitializeEngine function");
              }
              IntPtr deinitializeEnginePtr = GetProcAddress(dllHandle, "DeinitializeEngine");
              if (deinitializeEnginePtr == IntPtr.Zero)
              {
                  throw new Exception("Can't find DeinitializeEngine function");
              }
              IntPtr dllCanUnloadNowPtr = GetProcAddress(dllHandle, "DllCanUnloadNow");
              if (dllCanUnloadNowPtr == IntPtr.Zero)
              {
                  throw new Exception("Can't find DllCanUnloadNow function");
              }
              // Convert pointers to delegates
              initializeEngine = (InitializeEngine)Marshal.GetDelegateForFunctionPointer(
                  initializeEnginePtr, typeof(InitializeEngine));
              deinitializeEngine = (DeinitializeEngine)Marshal.GetDelegateForFunctionPointer(
                  deinitializeEnginePtr, typeof(DeinitializeEngine));
              dllCanUnloadNow = (DllCanUnloadNow)Marshal.GetDelegateForFunctionPointer(
                  dllCanUnloadNowPtr, typeof(DllCanUnloadNow));
              // Call the InitializeEngine function 
              // passing the path to the Online License file and the Online License password
              int hresult = initializeEngine(customerProjectId, licensePath, licensePassword, 
                  "", "", false, ref engine);
              Marshal.ThrowExceptionForHR(hresult);
          }
          catch (Exception)
          {
              // Free the FREngine.dll library
              engine = null;
              // Deleting all objects before FreeLibrary call
              GC.Collect();
              GC.WaitForPendingFinalizers();
              GC.Collect();
              FreeLibrary(dllHandle);
              dllHandle = IntPtr.Zero;
              initializeEngine = null;
              deinitializeEngine = null;
              dllCanUnloadNow = null;
              throw;
          }
      }
      // Kernel32.dll functions
      [DllImport("kernel32.dll")]
      private static extern IntPtr LoadLibraryEx(string dllToLoad, IntPtr reserved, uint flags);
      private const uint LOAD_WITH_ALTERED_SEARCH_PATH = 0x00000008;
      [DllImport("kernel32.dll")]
      private static extern IntPtr GetProcAddress(IntPtr hModule, string procedureName);
      [DllImport("kernel32.dll")]
      private static extern bool FreeLibrary(IntPtr hModule);
      // FREngine.dll functions
      [UnmanagedFunctionPointer(CallingConvention.StdCall, CharSet = CharSet.Unicode)]
      private delegate int InitializeEngine(string customerProjectId, string licensePath, 
          string licensePassword, string tempFolder, string dataFolder, bool isSharedCPUCoresMode, 
          ref FREngine.IEngine engine);
      [UnmanagedFunctionPointer(CallingConvention.StdCall)]
      private delegate int DeinitializeEngine();
      [UnmanagedFunctionPointer(CallingConvention.StdCall)]
      private delegate int DllCanUnloadNow();
      // private variables
      private FREngine.IEngine engine = null;
      // Handle to FREngine.dll
      private IntPtr dllHandle = IntPtr.Zero;
      private InitializeEngine initializeEngine = null;
      private DeinitializeEngine deinitializeEngine = null;
      private DllCanUnloadNow dllCanUnloadNow = null;
  }
  ```

  ### C++ (COM)

  ```cpp theme={null}
  // Initialize these variables with the path to FREngine.dll, your FineReader Engine customer project ID,
  // and, if applicable, the path to the Online License token and Online License password
  wchar_t* FreDllPath;
  wchar_t* CustomerProjectId;
  wchar_t* LicensePath;  // if you don't use an Online License, assign empty strings to these variables
  wchar_t* LicensePassword;
  // HANDLE to FREngine.dll
  static HMODULE libraryHandle = 0;
  // Global FineReader Engine object
  FREngine::IEnginePtr Engine;
  void LoadFREngine()
  {
      if( Engine != 0 ) {
      // Already loaded
      return;
      }
      // First step: load FREngine.dll
      if( libraryHandle == 0 ) {
          libraryHandle = LoadLibraryEx( FreDllPath, 0, LOAD_WITH_ALTERED_SEARCH_PATH );
          if( libraryHandle == 0 ) {
              throw L"Error while loading ABBYY FineReader Engine";
          }
      }
      // Second step: obtain the Engine object
      typedef HRESULT ( STDAPICALLTYPE* InitializeEngineFunc )( BSTR, BSTR, BSTR, BSTR, 
          BSTR, VARIANT_BOOL, FREngine::IEngine** );
      InitializeEngineFunc pInitializeEngine =
      ( InitializeEngineFunc )GetProcAddress( libraryHandle, "InitializeEngine" );
      if( pInitializeEngine == 0 || pInitializeEngine( CustomerProjectId, LicensePath, 
          LicensePassword, L"", L"", VARIANT_FALSE, &Engine ) != S_OK ) {
      UnloadFREngine();
      throw L"Error while loading ABBYY FineReader Engine";
      }
  }
  ```
</Accordion>

<Accordion title="Step 2. Loading settings for the scenario">
  The most suitable settings for this scenario can be selected in ABBYY FineReader Engine using the [LoadPredefinedProfile](/fine-reader/engine/api-reference/engine-object-iengine-interface/supplementary-methods/loadpredefinedprofile-method) method of the [Engine](/fine-reader/engine/api-reference/engine-object-iengine-interface) object. This method receives the profile name as an input parameter. Please see [Working with Profiles](/fine-reader/engine/guided-tour/advanced-techniques/working-with-profiles) for more information.

  ABBYY FineReader Engine supports 2 variants of settings for this scenario:

  <table><thead><tr><th><p><strong>Profile name</strong></p></th><th><p><strong>Description</strong></p></th></tr></thead><tbody><tr><td><p><em>TextExtraction\_Accuracy</em></p></td><td><p>The settings have been optimized for accuracy:</p><ul><li>Enables detection of all text on an image, including small text areas of low quality (pictures and tables are not detected).</li><li>Full synthesis of the logical structure of a document is not performed.</li></ul><Warning>The profile is not intended for converting a document into RTF, DOCX, or text-only PDF. Use the document conversion profiles for such purpose.</Warning></td></tr><tr><td><p><em>TextExtraction\_Speed</em></p></td><td><p>The settings have been optimized for processing speed:</p><ul><li>Enables detection of all text on an image, including small text areas of low quality (pictures and tables are not detected).</li><li>Full synthesis of the logical structure of a document is not performed.</li><li>The processes of document analysis and recognition are speeded up.</li></ul><Warning>The profile is not intended for converting a document into RTF, DOCX, or text-only PDF. Use the document conversion profiles for such purpose.</Warning></td></tr></tbody></table>

  ### C\#

  ```csharp theme={null}
  // Load a predefined profile
  engine.LoadPredefinedProfile("TextExtraction_Accuracy");
  ```

  ### C++ (COM)

  ```cpp theme={null}
  // Load a predefined profile
  Engine->LoadPredefinedProfile( L"TextExtraction_Accuracy" );
  ```

  If you wish to change processing settings, use appropriate parameter objects. Please see [Additional optimization for specific tasks](/fine-reader/engine/guided-tour/basic-usage-scenarios-implementation/text-extraction#optimization) below for further information.
</Accordion>

<Accordion title="Step 3. Loading and preprocessing the images">
  ABBYY FineReader Engine provides the [FRDocument](/fine-reader/engine/api-reference/document-related-objects/frdocument) object which allows processing multi-page documents.

  To load images of a single document and preprocess them, you should create the FRDocument object and add images to it. You may do one of the following:

  * Create the FRDocument object using the [CreateFRDocumentFromImage](/fine-reader/engine/api-reference/engine-object-iengine-interface/creation-methods/createfrdocumentfromimage-method) method of the Engine object. This method creates the FRDocument object and loads images from the specified file.
  * Create the FRDocument object with the help of the [CreateFRDocument](/fine-reader/engine/api-reference/engine-object-iengine-interface/creation-methods/createlessobjectgreater-methods) method of the Engine object, then add images to the created FRDocument object from file (use the [AddImageFile](/fine-reader/engine/api-reference/document-related-objects/frdocument/addimagefile-method), [AddImageFileWithPassword](/fine-reader/engine/api-reference/document-related-objects/frdocument/addimagefilewithpassword-method), or [AddImageFileWithPasswordCallback](/fine-reader/engine/api-reference/document-related-objects/frdocument/addimagefilewithpasswordcallback-method) method of the FRDocument object).

  ### C\#

  ```csharp theme={null}
  // Create the FRDocument object from an image file
  FREngine.IFRDocument frDocument = engine.CreateFRDocumentFromImage( "C:\\MyImage.tif", null );
  ```

  ### C++ (COM)

  ```cpp theme={null}
  // Open an image file and create the FRDocument object
  FREngine::IFRDocumentPtr frDocument = Engine->CreateFRDocumentFromImage( L"C:\\MyImage.tif", 0 );
  ```
</Accordion>

<Accordion title="Step 4. Document recognition">
  To recognize the document, you should use analysis and recognition methods of the [FRDocument](/fine-reader/engine/api-reference/document-related-objects/frdocument) object. This object provides a whole array of methods for document analysis and recognition. The most convenient method allowing document analysis, recognition, and synthesis using just one method is the [Process](/fine-reader/engine/api-reference/document-related-objects/frdocument/process-method) method. It also uses simultaneous processing features of multiprocessor and multicore systems in the most efficient manner. However, you may also perform consecutive preprocessing, analysis, recognition, and synthesis using [Preprocess](/fine-reader/engine/api-reference/document-related-objects/frdocument/preprocess-method), [Analyze](/fine-reader/engine/api-reference/document-related-objects/frdocument/analyze-method), [Recognize](/fine-reader/engine/api-reference/document-related-objects/frdocument/recognize-method), and [Synthesize](/fine-reader/engine/api-reference/document-related-objects/frdocument/synthesize-method) methods.

  ### C\#

  ```csharp theme={null}
  // Analyze, recognize, and synthesize the document
  // There is no need for additional parameters because they are set up by processing profile
  frDocument.Process( null );
  ```

  ### C++ (COM)

  ```cpp theme={null}
  // Analyze, recognize, and synthesize the document
  // While the profile is loaded, you do not need to pass any additional parameters to the processing method
  frDocument->Process( 0 );
  ```
</Accordion>

<Accordion title="Step 5. Searching for important information">
  During analysis, ABBYY FineReader Engine selects image blocks containing text, tables, pictures, etc. In the course of recognition, the blocks containing text data get filled with the recognized text.

  In ABBYY FineReader Engine, the [Layout](/fine-reader/engine/api-reference/layout-related-objects/layout) object serves as storage for blocks and recognized text. The main scenario of document processing works with layout within the [FRDocument](/fine-reader/engine/api-reference/document-related-objects/frdocument) object, which represents processing document. To access a layout of a document page, use the [IFRPage::Layout](/fine-reader/engine/api-reference/document-related-objects/frpage) property.

  To search for key words, you may view the recognized text using the [Text](/fine-reader/engine/api-reference/text-related-objects/text) object, which is accessible via the properties of the text, table, or barcode blocks.

  The important data you have found may be saved or processed as required. Please see [Additional optimization for specific tasks](/fine-reader/engine/guided-tour/basic-usage-scenarios-implementation/text-extraction#optimization) below for more detailed information.
</Accordion>

<Accordion title="(Optional) Step 6. Document export">
  Alternatively, you may want to store the extracted text in an easily searchable format such as TXT or in a structured format that will allow you to easily retrieve necessary information later, such as JSON.

  Use the [Export](/fine-reader/engine/api-reference/document-related-objects/frdocument/export-method) method of the [FRDocument](/fine-reader/engine/api-reference/document-related-objects/frdocument) object with a corresponding [FileExportFormatEnum](/fine-reader/engine/api-reference/enumerations/fileexportformatenum) constant as one of the parameters. You can change the default parameters of export using the corresponding export object. Please see [Additional optimization for specific tasks](/fine-reader/engine/guided-tour/basic-usage-scenarios-implementation/document-conversion#optimization) below for further information.

  After you have finished your work with the FRDocument object, release all the resources that were used by this object. Use the [IFRDocument::Close](/fine-reader/engine/api-reference/document-related-objects/frdocument/close-method) method.

  ### C\#

  ```csharp theme={null}
  // Save the recognized document text into TXT format
  frDocument.Export( "C:\\MyText.txt", FREngine.FileExportFormatEnum.FEF_TextUnicodeDefaults, null );
  // Release the FRDocument object
  frDocument.Close();
  ```

  ### C++ (COM)

  ```cpp theme={null}
  // Save the recognized document text into TXT format
  frDocument->Export( L"C:\\MyText.txt", FREngine::FEF_TextUnicodeDefaults, 0 );
  // Release the FRDocument object
  frDocument->Close();
  ```
</Accordion>

<Accordion title="Step 7. Unloading ABBYY FineReader Engine">
  After finishing your work with ABBYY FineReader Engine, you need to unload the [Engine](/fine-reader/engine/api-reference/engine-object-iengine-interface) object. To do this, use the [DeinitializeEngine](/fine-reader/engine/api-reference/functions/deinitializeengine-function) exported function.

  ### C\#

  ```csharp theme={null}
  public class EngineLoader : IDisposable
  {
      // Unload FineReader Engine
      public void Dispose()
      {
          if (engine == null)
          {
              // Engine was not loaded
              return;
          }
          engine = null;
          // Deleting all objects before FreeLibrary call
          GC.Collect();
          GC.WaitForPendingFinalizers();
          GC.Collect();
          int hresult = deinitializeEngine();
   
          hresult = dllCanUnloadNow();
          if (hresult == 0)
          {
              FreeLibrary(dllHandle);
          }
          dllHandle = IntPtr.Zero;
          initializeEngine = null;
          deinitializeEngine = null;
          dllCanUnloadNow = null;
          // throwing exception after cleaning up
          Marshal.ThrowExceptionForHR(hresult);
      }
      // Kernel32.dll functions
      [DllImport("kernel32.dll")]
      private static extern IntPtr LoadLibraryEx(string dllToLoad, IntPtr reserved, uint flags);
      private const uint LOAD_WITH_ALTERED_SEARCH_PATH = 0x00000008;
      [DllImport("kernel32.dll")]
      private static extern IntPtr GetProcAddress(IntPtr hModule, string procedureName);
      [DllImport("kernel32.dll")]
      private static extern bool FreeLibrary(IntPtr hModule);
      // FREngine.dll functions
      [UnmanagedFunctionPointer(CallingConvention.StdCall, CharSet = CharSet.Unicode)]
      private delegate int InitializeEngine( string customerProjectId, string LicensePath, string LicensePassword, , , , ref FREngine.IEngine engine);
      [UnmanagedFunctionPointer(CallingConvention.StdCall)]
      private delegate int DeinitializeEngine();
      [UnmanagedFunctionPointer(CallingConvention.StdCall)]
      private delegate int DllCanUnloadNow();
      // private variables
      private FREngine.IEngine engine = null;
      // Handle to FREngine.dll
      private IntPtr dllHandle = IntPtr.Zero;
      private InitializeEngine initializeEngine = null;
      private DeinitializeEngine deinitializeEngine = null;
      private DllCanUnloadNow dllCanUnloadNow = null;
  }
  ```

  ### C++ (COM)

  ```cpp theme={null}
  void UnloadFREngine()
  {
   if( libraryHandle == 0 ) {
    return;
   }
   // Release Engine object
   Engine = 0;
   // Deinitialize FineReader Engine
   typedef HRESULT ( STDAPICALLTYPE* DeinitializeEngineFunc )();
   DeinitializeEngineFunc pDeinitializeEngine =
    ( DeinitializeEngineFunc )GetProcAddress( libraryHandle, "DeinitializeEngine" );
   if( pDeinitializeEngine == 0 || pDeinitializeEngine() != S_OK ) {
    throw L"Error while unloading ABBYY FineReader Engine";
   }
   // Now it's safe to free the FREngine.dll library
   FreeLibrary( libraryHandle );
   libraryHandle = 0;
  }
  ```
</Accordion>

## Required resources

You can use the [FREngineDistribution.csv](/fine-reader/engine/distribution/distribution-windows/distribution-kit/working-with-the-frenginedistributioncsv-file) file to automatically create a list of files required for your application to function. For processing with this scenario, select in the column 5 (RequiredByModule) the following values:

Core

Core.Resources

Opening

Opening, Processing

Processing

Processing.OCR

Processing.OCR, Processing.ICR

Processing.OCR.NaturalLanguages

Processing.OCR.NaturalLanguages, Processing.ICR.NaturalLanguages

If you modify the standard scenario, change the required modules accordingly. You also need to specify the interface languages, recognition languages and any additional features which your application uses (such as, e.g., Opening.PDF if you need to open PDF files, or Processing.OCR.CJK if you need to recognize texts in [CJK languages](/fine-reader/engine/guided-tour/advanced-techniques/recognizing-cjk-languages#cjk)). See [Working with the FREngineDistribution.csv File](/fine-reader/engine/distribution/distribution-windows/distribution-kit/working-with-the-frenginedistributioncsv-file) for further details.

## Additional optimization for specific tasks

* Scanning - Windows only
  * [Scanning](/fine-reader/engine/guided-tour/basic-usage-scenarios-implementation/scanning)<br />Description of the ABBYY FineReader Engine scenario for document scanning.

* Recognition
  * [Tuning Parameters of Preprocessing, Analysis, Recognition, and Synthesis](/fine-reader/engine/guided-tour/advanced-techniques/tuning-parameters-of-preprocessing-analysis-recognition-and-synthesis)<br />Customization of document processing using objects of analysis, recognition and synthesis parameters.

* [Recognize handwriting](/fine-reader/engine/guided-tour/advanced-techniques/recognizing-handwritten-texts)<br />The TextExtraction\_\*\*\* profiles do not include handwritten or handprinted text recognition. If you need to recognize handwriting, set the [DetectHandwritten](/fine-reader/engine/api-reference/parameter-objects/preprocessing-analysis-recognition-and-synthesis-parameters/pageanalysisparams#detecthandwritten) property of the [PageAnalysisParams](/fine-reader/engine/api-reference/parameter-objects/preprocessing-analysis-recognition-and-synthesis-parameters/pageanalysisparams) object to TRUE.

* [PageProcessingParams Object](/fine-reader/engine/api-reference/parameter-objects/preprocessing-analysis-recognition-and-synthesis-parameters/pageprocessingparams)<br />This object enables customization of analysis and recognition parameters. Using this object, you can indicate which image and text characteristics must be detected (inverted image, orientation, barcodes, recognition language, recognition error margin).

* [SynthesisParamsForPage Object](/fine-reader/engine/api-reference/parameter-objects/preprocessing-analysis-recognition-and-synthesis-parameters/synthesisparamsforpage)<br />This object includes parameters responsible for restoration of a page formatting during synthesis.

* [SynthesisParamsForDocument Object](/fine-reader/engine/api-reference/parameter-objects/preprocessing-analysis-recognition-and-synthesis-parameters/synthesisparamsfordocument)<br />This object enables customization of document synthesis: restoration of its structure and formatting.

* [MultiProcessingParams Object](/fine-reader/engine/api-reference/parameter-objects/multiprocessingparams) - Linux and Windows Only<br />Simultaneous processing may be useful when processing a large number of images. In this case, the processing load will be spread over the processor cores during image opening and preprocessing, layout analysis, and recognition, which makes it possible to speed up processing.<br />Reading modes (simultaneous or consecutive) are set using the MultiProcessingMode property. The RecognitionProcessesCount property controls the number of processes that may be started.

* Searching for important information
  * [Working with Layout and Blocks](/fine-reader/engine/guided-tour/advanced-techniques/working-with-layout-and-blocks)<br />About page layout, block types, and working with them.
  * [Layout Object](/fine-reader/engine/api-reference/layout-related-objects/layout)<br />This object's parameters provide access to the page layout and the recognized text after document recognition.
  * [Working with Text](/fine-reader/engine/guided-tour/advanced-techniques/working-with-text)<br />Working with recognized text, paragraphs, words, and symbols.

* Re-reading of document using special parameters for specified data type
  * [Field-Level Recognition](/fine-reader/engine/guided-tour/basic-usage-scenarios-implementation/field-level-recognition)<br />Description of scenario for recognizing short text segments.

* Saving data
  * To save recognized data, you may use the [Export](/fine-reader/engine/api-reference/document-related-objects/frdocument/export-method) or [ExportPages](/fine-reader/engine/api-reference/document-related-objects/frdocument/exportpages-method) methods of the [FRDocument](/fine-reader/engine/api-reference/document-related-objects/frdocument) object by assigning the [FileExportFormatEnum](/fine-reader/engine/api-reference/enumerations/fileexportformatenum) constant as one of the parameters.
  * [Document Archiving](/fine-reader/engine/guided-tour/basic-usage-scenarios-implementation/document-archiving)<br />Description of the scenario for saving an electronic copy of document.

## See also

[Basic Usage Scenarios Implementation](/fine-reader/engine/guided-tour/basic-usage-scenarios-implementation)
