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Haystack includes a suite of tools to extract text from different file types, normalize white space and split text into smaller pieces to optimize retrieval. These data preprocessing steps can have a big impact on the systems performance and effective handling of data is key to getting the most out of Haystack.

Ultimately, Haystack expects data to be provided as a list documents in the following dictionary format:

docs = [
        'text': DOCUMENT_TEXT_HERE,
        'meta': {'name': DOCUMENT_NAME, ...}
    }, ...

This tutorial will show you all the tools that Haystack provides to help you cast your data into this format.

# Let's start by installing Haystack

# Install the latest release of Haystack in your own environment
#! pip install farm-haystack

# Install the latest master of Haystack
!pip install git+
!wget --no-check-certificate
!tar -xvf xpdf-tools-linux-4.03.tar.gz && sudo cp xpdf-tools-linux-4.03/bin64/pdftotext /usr/local/bin
# Here are the imports we need

from haystack.file_converter.txt import TextConverter
from haystack.file_converter.pdf import PDFToTextConverter
from haystack.file_converter.docx import DocxToTextConverter

from haystack.preprocessor.utils import convert_files_to_dicts, fetch_archive_from_http
from haystack.preprocessor.preprocessor import PreProcessor
# This fetches some sample files to work with

doc_dir = "data/preprocessing_tutorial"
s3_url = ""
fetch_archive_from_http(url=s3_url, output_dir=doc_dir)


Haystack's converter classes are designed to help you turn files on your computer into the documents that can be processed by the Haystack pipeline. There are file converters for txt, pdf, docx files as well as a converter that is powered by Apache Tika.

# Here are some examples of how you would use file converters

converter = TextConverter(remove_numeric_tables=True, valid_languages=["en"])
doc_txt = converter.convert(file_path="data/preprocessing_tutorial/classics.txt", meta=None)

converter = PDFToTextConverter(remove_numeric_tables=True, valid_languages=["en"])
doc_pdf = converter.convert(file_path="data/preprocessing_tutorial/bert.pdf", meta=None)

converter = DocxToTextConverter(remove_numeric_tables=True, valid_languages=["en"])
doc_docx = converter.convert(file_path="data/preprocessing_tutorial/heavy_metal.docx", meta=None)
# Haystack also has a convenience function that will automatically apply the right converter to each file in a directory.

all_docs = convert_files_to_dicts(dir_path="data/preprocessing_tutorial")


The PreProcessor class is designed to help you clean text and split text into sensible units. File splitting can have a very significant impact on the system's performance and is absolutely mandatory for Dense Passage Retrieval models. In general, we recommend you split the text from your files into small documents of around 100 words for dense retrieval methods and no more than 10,000 words for sparse methods. Have a look at the Preprocessing and Optimization pages on our website for more details.

# This is a default usage of the PreProcessor.
# Here, it performs cleaning of consecutive whitespaces
# and splits a single large document into smaller documents.
# Each document is up to 1000 words long and document breaks cannot fall in the middle of sentences
# Note how the single document passed into the document gets split into 5 smaller documents

preprocessor = PreProcessor(
docs_default = preprocessor.process(doc_txt)
print(f"n_docs_input: 1\nn_docs_output: {len(docs_default)}")


  • clean_empty_lines will normalize 3 or more consecutive empty lines to be just a two empty lines
  • clean_whitespace will remove any whitespace at the beginning or end of each line in the text
  • clean_header_footer will remove any long header or footer texts that are repeated on each page


By default, the PreProcessor will respect sentence boundaries, meaning that documents will not start or end midway through a sentence. This will help reduce the possibility of answer phrases being split between two documents. This feature can be turned off by setting split_respect_sentence_boundary=False.

# Not respecting sentence boundary vs respecting sentence boundary

preprocessor_nrsb = PreProcessor(split_respect_sentence_boundary=False)
docs_nrsb = preprocessor_nrsb.process(doc_txt)

end_text = docs_default[0]["text"][-50:]
print("End of document: \"..." + end_text + "\"")
end_text_nrsb = docs_nrsb[0]["text"][-50:]
print("End of document: \"..." + end_text_nrsb + "\"")

A commonly used strategy to split long documents, especially in the field of Question Answering, is the sliding window approach. If split_length=10 and split_overlap=3, your documents will look like this:

  • doc1 = words[0:10]
  • doc2 = words[7:17]
  • doc3 = words[14:24]
  • ...

You can use this strategy by following the code below.

# Sliding window approach

preprocessor_sliding_window = PreProcessor(
docs_sliding_window = preprocessor_sliding_window.process(doc_txt)

doc1 = docs_sliding_window[0]["text"][:200]
doc2 = docs_sliding_window[1]["text"][:100]
doc3 = docs_sliding_window[2]["text"][:100]

print("Document 1: \"" + doc1 + "...\"")
print("Document 2: \"" + doc2 + "...\"")
print("Document 3: \"" + doc3 + "...\"")

Bringing it all together

all_docs = convert_files_to_dicts(dir_path="data/preprocessing_tutorial")
preprocessor = PreProcessor(
nested_docs = [preprocessor.process(d) for d in all_docs]
docs = [d for x in nested_docs for d in x]

print(f"n_files_input: {len(all_docs)}\nn_docs_output: {len(docs)}")
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