#!/usr/bin/env python2.7
# coding=utf-8



"""
ocr_pyflow.py

Usage:  For usage instructions run with option --help
Author: Patrick Jentsch <p.jentsch@uni-bielefeld.de>
"""


import argparse
import multiprocessing
import os
import sys
from pyflow import WorkflowRunner


''' TODO:
  ' Implement --end-page: Last page to ocr
  ' Implement --memMb: Total amount of memory (RAM) available for this workflow. Default: 2048 * nCores
  ' Implement --rotate: Rotate pages from input (90, 180, 270)
  ' Implement --split-pages: Split pages in half after possible rotation
  ' Implement --start-page: First page to ocr
'''
def parse_arguments():
    parser = argparse.ArgumentParser("Performs OCR of (historical) documents utilizing OCRopus for preprocessing and Tesseract OCR \
        for OCR. Available outputs are HOCR, PDF, shrinked PDF, and simple DTAbf \
        (TEI P5 compliant). Software requirements: imagemagick, ocropus, pdftk, pdftoppm, poppler-utils, pyflow, python2.7, tesseract")

    parser.add_argument("-i",
                        dest="inputDir",
                        help="Input directory.",
                        required=True)
    parser.add_argument("-l",
                        dest='lang',
                        help="Language for OCR",
                        required=True)
    parser.add_argument("-o",
                        dest="outputDir",
                        help="Output directory.",
                        required=True)
    parser.add_argument("--keep-intermediates",
                        action='store_true',
                        default=False,
                        dest="keepIntermediates",
                        help="Keep intermediate files.",
                        required=False)
    parser.add_argument("--nCores",
                        default=multiprocessing.cpu_count(),
                        dest="nCores",
                        help="Total number of cores available.",
                        required=False,
                        type=int)
    return parser.parse_args()


class OCRWorkflow(WorkflowRunner):
    def __init__(self, jobs, keepIntermediates, lang, nCores):
        self.jobs = jobs
        self.keepIntermediates = keepIntermediates
        self.lang = lang
        self.nCores = nCores


    def workflow(self):
        ###
        # Task "mkdir_job": create output directories
        # Dependencies: None
        ###
        mkdir_jobs = []
        mkdir_job_number = 0
        for job in self.jobs:
            mkdir_job_number += 1
            cmd = 'mkdir -p "%s" "%s" "%s" "%s"' % (
                os.path.join(job["output_dir"], "hocr_files"),
                os.path.join(job["output_dir"], "tmp", "ocropus-nlbin"),
                os.path.join(job["output_dir"], "tmp", "tesseract"),
                os.path.join(job["output_dir"], "tmp", "tiff_files")
            )
            mkdir_jobs.append(self.addTask(label="mkdir_job_-_%i" % (mkdir_job_number), command=cmd))

        ###
        # Task "split_job": split input file into one tiff file per page
        # Dependencies: mkdir_jobs
        ###
        split_jobs = []
        split_job_number = 0
        for job in self.jobs:
            split_job_number += 1
            if job["basename"].endswith(".tif") or job["basename"].endswith(".tiff"):
                # TODO: Make the following command work
                '''
                cmd = 'convert "%s" "%s"' % (
                    job["path"],
                    os.path.join(job["output_dir"], "tmp", "tiff_files", os.path.basename(job["path"]).rsplit(".", 1)[0] + "-%sd.tif" % ("%")))
                '''
                # WORKAROUND
                cmd = 'tiff2pdf -o "%s" "%s" && pdftoppm "%s" "%s" -tiff -r 300 -tiffcompression lzw -cropbox && rm "%s"' % (
                    os.path.join(job["output_dir"], "tmp", "tiff_files", job["basename"].rsplit(".", 1)[0] + ".pdf"),
                    job["path"],
                    os.path.join(job["output_dir"], "tmp", "tiff_files", job["basename"].rsplit(".", 1)[0] + ".pdf"),
                    os.path.join(job["output_dir"], "tmp", "tiff_files", job["basename"].rsplit(".", 1)[0]),
                    os.path.join(job["output_dir"], "tmp", "tiff_files", job["basename"].rsplit(".", 1)[0] + ".pdf")
                )
            else:
                cmd = 'pdftoppm "%s" "%s" -tiff -r 300 -tiffcompression lzw -cropbox' % (
                    job["path"],
                    os.path.join(job["output_dir"], "tmp", "tiff_files", "page")
                )
            split_jobs.append(self.addTask(label="split_job_-_%i" % (split_job_number), command=cmd, dependencies=mkdir_jobs))

        ###
        # Task "ocropus_nlbin_job": binarize tiff files from previous split
        # Dependencies: split_jobs
        ###
        ocropusnlbin_jobs = []
        ocropusnlbin_job_number = 0
        for job in self.jobs:
            ocropusnlbin_job_number += 1
            cmd = 'ocropus-nlbin -o "%s" "%s"' % (
                os.path.join(job["output_dir"], "tmp", "ocropus-nlbin"),
                os.path.join(job["output_dir"], "tmp", "tiff_files", "page-*.tif")
            )
            ocropusnlbin_jobs.append(self.addTask(label="ocropusnlbin_job_-_%i" % (ocropusnlbin_job_number), command=cmd, dependencies=split_jobs))

        ###
        # Task "tesseract_job": perform OCR on binarized images
        # Dependencies: ocropusnlbin_jobs
        ###
        self.waitForTasks()
        tesseract_jobs = []
        tesseract_job_number = 0
        for job in self.jobs:
            # This list is empty if you don't wait for ocropus_nlbin_jobs to complete
            for file in filter(lambda x: x.endswith(".bin.png"), os.listdir(os.path.join(job["output_dir"], "tmp", "ocropus-nlbin"))):
                tesseract_job_number += 1
                cmd = 'tesseract "%s" "%s" -l "%s" hocr pdf txt' % (
                    os.path.join(job["output_dir"], "tmp", "ocropus-nlbin", file),
                    os.path.join(job["output_dir"], "tmp", "tesseract", file.rsplit(".", 2)[0]),
                    self.lang
                )
                tesseract_jobs.append(self.addTask(label="tesseract_job_-_%i" % (tesseract_job_number), command=cmd, dependencies=ocropusnlbin_jobs, nCores=min(4, self.nCores)))

        ###
        # Task "hocr_to_teip5_job": create TEI P5 file from hocr files
        # Dependencies: tesseract_jobs
        ###
        hocr_to_teip5_jobs = []
        hocr_to_teip5_job_number = 0
        for job in self.jobs:
            hocr_to_teip5_job_number += 1
            cmd = 'parse_hocr "%s" "%s"' % (
                os.path.join(job["output_dir"], "tmp", "tesseract"),
                os.path.join(job["output_dir"], job["basename"].rsplit(".", 1)[0] + ".xml")
            )
            hocr_to_teip5_jobs.append(self.addTask(label="hocr_to_teip5_job_-_%i" % (hocr_to_teip5_job_number), command=cmd, dependencies=tesseract_jobs))

        ###
        # Task "move_hocr_job": move hocr files from <output_dir>/tmp/tesseract to <output_dir>/hocr_files
        # Dependencies: hocr_to_teip5_jobs
        ###
        move_hocr_jobs = []
        move_hocr_job_number = 0
        for job in self.jobs:
            move_hocr_job_number += 1
            cmd = 'mv "%s"/*.hocr "%s"' % (
                os.path.join(job["output_dir"], "tmp", "tesseract"),
                os.path.join(job["output_dir"], "hocr_files")
            )
            move_hocr_jobs.append(self.addTask(label="move_hocr_job_-_%i" % (move_hocr_job_number), command=cmd, dependencies=hocr_to_teip5_jobs))

        ###
        # Task "pdf_merge_job": Merge PDF files
        # Dependencies: tesseract_jobs
        ###
        pdf_merge_jobs = []
        pdf_merge_job_number = 0
        for job in self.jobs:
            pdf_merge_job_number += 1
            cmd = 'pdftk "%s"/*.pdf cat output "%s"' % (
                os.path.join(job["output_dir"], "tmp", "tesseract"),
                os.path.join(job["output_dir"], job["basename"].rsplit(".", 1)[0] + ".pdf")
            )
            pdf_merge_jobs.append(self.addTask(label="pdf_merge_job_-_%i" % (pdf_merge_job_number), command=cmd, dependencies=tesseract_jobs))

        ###
        # Task "pdf_to_txt_job":
        # Dependencies: pdf_merge_jobs
        ###
        pdf_to_txt_jobs = []
        pdf_to_txt_job_number = 0
        for job in self.jobs:
            pdf_to_txt_job_number += 1
            cmd = 'pdftotext -raw "%s"' % (
                os.path.join(job["output_dir"], job["basename"].rsplit(".", 1)[0] + ".pdf")
            )
            pdf_merge_jobs.append(self.addTask(label="pdf_to_txt_job_-_%i" % (pdf_to_txt_job_number), command=cmd, dependencies=pdf_merge_jobs))

        ###
        # Task "cleanup_job": remove temporary files
        # Dependencies: hocr_to_teip5_job + move_hocr_jobs + pdf_merge_jobs + pdf_to_txt_jobs
        ###
        cleanup_jobs = []
        cleanup_job_counter = 0
        if not self.keepIntermediates:
            for job in self.jobs:
                cleanup_job_counter += 1
                cmd = 'rm -r "%s"' % (
                    os.path.join(job["output_dir"], "tmp")
                )
                cleanup_jobs.append(self.addTask(label="cleanup_job_-_%i" % (cleanup_job_counter), command=cmd, dependencies=hocr_to_teip5_job + move_hocr_jobs + pdf_merge_jobs + pdf_to_txt_jobs))


def analyze_jobs(inputDir, outputDir, level=1):
    jobs = []

    if level > 2:
        return jobs

    for file in os.listdir(inputDir):
        if os.path.isdir(os.path.join(inputDir, file)):
            jobs += analyze_jobs(
                os.path.join(inputDir, file),
                os.path.join(outputDir, file),
                level + 1
            )
        elif file.endswith(".pdf") or file.endswith(".tif") or file.endswith(".tiff"):
            jobs.append({"basename": os.path.basename(file), "output_dir": os.path.join(outputDir, file.rsplit(".", 1)[0]), "path": os.path.join(inputDir, file)})

    return jobs


def main():
    args = parse_arguments()

    wflow = OCRWorkflow(
        analyze_jobs(args.inputDir, args.outputDir),
        args.keepIntermediates,
        args.lang,
        args.nCores
    )

    retval = wflow.run(nCores=args.nCores)
    sys.exit(retval)


if __name__ == "__main__":
    main()