I have a PDF which contains Tables, text and some images. I want to extract the table wherever tables are there in the PDF.

Right now am doing manually to find the Table from the page. From there I am capturing that page and saving into another PDF.

import PyPDF2

PDFfilename = "Sammamish.pdf" #filename of your PDF/directory where your PDF is stored

pfr = PyPDF2.PdfFileReader(open(PDFfilename, "rb")) #PdfFileReader object

pg4 = pfr.getPage(126) #extract pg 127

writer = PyPDF2.PdfFileWriter() #create PdfFileWriter object
#add pages

NewPDFfilename = "allTables.pdf" #filename of your PDF/directory where you want your new PDF to be
with open(NewPDFfilename, "wb") as outputStream:
    writer.write(outputStream) #write pages to new PDF

My goal is to extract the table from the whole PDF document.

Please have a look at the sample image of a page in PDF

  • 2
    Would this module help? github.com/chezou/tabula-py – BoboDarph Nov 28 '17 at 14:29
  • @BoboDarph, I tried this But this didn't work for me. – venkat Nov 28 '17 at 14:38
  • Now i converted the pdf to text, From the text i have to identify the table and write into CSV/TSV/JSON – venkat Nov 28 '17 at 18:25
  • 4
    This very much depends on the PDF. Similar-looking PDF docs can internally be very different. You probably have to try different tool-mechanism combinations to identify and extract the data you're after. In the end, you may something simple that works, or you may have to combine different approaches. I had a bit similar case that I solved by first using Tabula and then post-processing the result. – Petri Dec 3 '17 at 11:29
  • 2
    There are similar questions already existing in stackoverflow. Check for those answers first, one for ex : stackoverflow.com/questions/28532770/… – akshay dhule Dec 5 '17 at 1:35

This answer is for anyone encountering pdfs with images and needing to use OCR. I could not find a workable off-the-shelf solution; nothing that gave me the accuracy I needed.

Here are the steps I found to work.

  1. Use pdfimages from https://poppler.freedesktop.org/ to turn the pages of the pdf into images.

  2. Use Tesseract to detect rotation and ImageMagick mogrify to fix it.

  3. Use OpenCV to find and extract tables.

  4. Use OpenCV to find and extract each cell from the table.

  5. Use OpenCV to crop and clean up each cell so that there is no noise that will confuse OCR software.

  6. Use Tesseract to OCR each cell.

  7. Combine the extracted text of each cell into the format you need.

I wrote a python package with modules that can help with those steps.

Repo: https://github.com/eihli/image-table-ocr

Docs & Source: https://eihli.github.io/image-table-ocr/pdf_table_extraction_and_ocr.html

Some of the steps don't require code, they take advantage of external tools like pdfimages and tesseract. I'll provide some brief examples for a couple of the steps that do require code.

  1. Finding tables:

This link was a good reference while figuring out how to find tables. https://answers.opencv.org/question/63847/how-to-extract-tables-from-an-image/

import cv2

def find_tables(image):
    BLUR_KERNEL_SIZE = (17, 17)
    blurred = cv2.GaussianBlur(image, BLUR_KERNEL_SIZE, STD_DEV_X_DIRECTION, STD_DEV_Y_DIRECTION)
    MAX_COLOR_VAL = 255
    BLOCK_SIZE = 15

    img_bin = cv2.adaptiveThreshold(
    vertical = horizontal = img_bin.copy()
    SCALE = 5
    image_width, image_height = horizontal.shape
    horizontal_kernel = cv2.getStructuringElement(cv2.MORPH_RECT, (int(image_width / SCALE), 1))
    horizontally_opened = cv2.morphologyEx(img_bin, cv2.MORPH_OPEN, horizontal_kernel)
    vertical_kernel = cv2.getStructuringElement(cv2.MORPH_RECT, (1, int(image_height / SCALE)))
    vertically_opened = cv2.morphologyEx(img_bin, cv2.MORPH_OPEN, vertical_kernel)

    horizontally_dilated = cv2.dilate(horizontally_opened, cv2.getStructuringElement(cv2.MORPH_RECT, (40, 1)))
    vertically_dilated = cv2.dilate(vertically_opened, cv2.getStructuringElement(cv2.MORPH_RECT, (1, 60)))

    mask = horizontally_dilated + vertically_dilated
    contours, hierarchy = cv2.findContours(

    MIN_TABLE_AREA = 1e5
    contours = [c for c in contours if cv2.contourArea(c) > MIN_TABLE_AREA]
    perimeter_lengths = [cv2.arcLength(c, True) for c in contours]
    epsilons = [0.1 * p for p in perimeter_lengths]
    approx_polys = [cv2.approxPolyDP(c, e, True) for c, e in zip(contours, epsilons)]
    bounding_rects = [cv2.boundingRect(a) for a in approx_polys]

    # The link where a lot of this code was borrowed from recommends an
    # additional step to check the number of "joints" inside this bounding rectangle.
    # A table should have a lot of intersections. We might have a rectangular image
    # here though which would only have 4 intersections, 1 at each corner.
    # Leaving that step as a future TODO if it is ever necessary.
    images = [image[y:y+h, x:x+w] for x, y, w, h in bounding_rects]
    return images
  1. Extract cells from table.

This is very similar to 2, so I won't include all the code. The part I will reference will be in sorting the cells.

We want to identify the cells from left-to-right, top-to-bottom.

We’ll find the rectangle with the most top-left corner. Then we’ll find all of the rectangles that have a center that is within the top-y and bottom-y values of that top-left rectangle. Then we’ll sort those rectangles by the x value of their center. We’ll remove those rectangles from the list and repeat.

def cell_in_same_row(c1, c2):
    c1_center = c1[1] + c1[3] - c1[3] / 2
    c2_bottom = c2[1] + c2[3]
    c2_top = c2[1]
    return c2_top < c1_center < c2_bottom

orig_cells = [c for c in cells]
rows = []
while cells:
    first = cells[0]
    rest = cells[1:]
    cells_in_same_row = sorted(
            c for c in rest
            if cell_in_same_row(c, first)
        key=lambda c: c[0]

    row_cells = sorted([first] + cells_in_same_row, key=lambda c: c[0])
    cells = [
        c for c in rest
        if not cell_in_same_row(c, first)

# Sort rows by average height of their center.
def avg_height_of_center(row):
    centers = [y + h - h / 2 for x, y, w, h in row]
    return sum(centers) / len(centers)

| improve this answer | |

in my opinion you have 5 possibilities:

  • You may extract the table directly using camelot PDF Table Extraction for Humans

  • You may treat the pdf directly using tabula

  • You may convert the pdf to text using pdftotext, then parse text with python

  • You may use external tool, to convert your pdf file to excel or csv, then use required python module to open the excel/csv file.

  • You may also convert pdf to an image file, then use any recent OCR software (which reconstruct table automatically from the picture) to get data

Your question is near similar with:


| improve this answer | |
  • 1
    Camelot worked great for me: camelot --format csv --output ./foo.csv --pages 1-end lattice output_file.pdf – jamescampbell Jan 28 at 18:08

I would suggest you to extract the table using tabula. Pass your pdf as an argument to the tabula api and it will return you the table in the form of dataframe. Each table in your pdf is returned as one dataframe. This is my code for extracting pdf.

#the table will be returned in a list of dataframe,for working with dataframe you need pandas
import pandas as pd
import tabula
file = "filename.pdf"
path = 'enter your directory path here'  + file
df = tabula.read_pdf(path, pages = '1', multiple_tables = True)

Please refer to this repo of mine for more details.

| improve this answer | |
  • 1
    Please consider changing the line files = "filename.pdf" to file = "filename.pdf". There is a minor typo – draysams Apr 25 '19 at 19:41
  • What is the use of import pandas as pd in relation to extracting tables from pdf files? – Phemelo Khetho May 9 at 2:04

A 2019 update to the question, as I'm always directed here every time I search for "python extract pdf table"

There's a python solution called camelot/excalibur


| improve this answer | |
  • No, I was lucky and only needed for a list in text. Good to know it works with images too. – josem8f Sep 27 '19 at 9:14

For a project I was doing, the following worked well for me: first, generate an image from each pdf page (pdf2image) and then run OCR on the images (pytesseract) .

Here is a simple git project implementing this approach. Enjoy!

| improve this answer | |

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