#!/usr/bin/env python3 import readings from pprint import pprint import re, sys, glob from escpos import escpos from sys import stdin, stderr, stdout from time import sleep import nltk from nltk.tokenize import RegexpTokenizer tokenizer = RegexpTokenizer(r'\w+') # initialize tokenizer connected = True def check_printer_path(): printers = glob.glob('/dev/usb/lp*') if printers: return printers[0] else: return None def char_swap(some_string): swaps = [('–','-'), ('“','"'),('”','"'),('ù','u'), ("’","'"), ('à','a'), ('â','a'),('é','e'),('è','e'),('î','i')] for swap in swaps: some_string = some_string.replace(swap[0], swap[1]) return some_string def insert_linebreaks(string, linelength): count = 0 tmp = '' new = '' for x, ch in enumerate(string): tmp_ch = [] if ch == ' ': count = count + 1 if count < linelength: tmp += ' ' else: new += tmp + '\n' tmp = '' count = 0 elif x+1 == len(string): new += tmp + ch else: tmp += ch count += 1 return new def printNow(query, results): if connected == True: printerpath = check_printer_path() try: print_pointer = open(printerpath, 'w') if printerpath else sys.__stdout__ print(escpos['reset'], file=print_pointer, flush=True) print(escpos['init_printer'], file=print_pointer, flush=True) print(escpos['margin_left'], file=print_pointer, flush=True) print(escpos['justify_center'], file=print_pointer, flush=True) printed = False results_count = 0 for x, document in results.items(): for n, sentence in enumerate(document['matches']): if results_count < 4: results_count += 1 sentence = str(sentence) # Turn Flask Markup object back to normal python string sentence = char_swap(sentence) query = char_swap(query) sentence = sentence.replace('\n', ' ').replace(' ', ' ') pattern = r'[\s\W\_]'+query+r'[\s\W\_\n]|^'+query+'|'+query+'$' match = re.search(pattern, sentence, flags=re.IGNORECASE) if match: match = match.group() sentence_splitted = re.compile(match).split(sentence) # find the query in the sentence, and split the sentence up for i, part in enumerate(sentence_splitted): if n == 0: # first sentence of this document if i == 0: # start of a new sentence print('', file=print_pointer, flush=True) linebreak = ''' ** ** /** ** //** /** ** ************** ///**//**//**/ ** /** //** // /** // // ''' print(linebreak, file=print_pointer, flush=True) # print line break ascii art print('\n', file=print_pointer, flush=True) title = insert_linebreaks(document['name'], 13) print(escpos['largefont'], title, escpos['normalfont'], file=print_pointer, flush=True) # print the document name print('\n', file=print_pointer, flush=True) # start of sentence part = insert_linebreaks(part, 35) print(part, file=print_pointer, flush=True) # print current part of sentence if i + 1 != len(sentence_splitted): # if this part is not the last one print(escpos['bold'], match, escpos['reset'], file=print_pointer, flush=True) # print query # line breaker after each sentence if i + 1 == len(sentence_splitted): print('\n | \n', file=print_pointer, flush=True) sleep(3) current_count += 1 end_line = insert_linebreaks('These are the first 5 results that the algorithm selected.', 35) print("\n\n{}\n".format(end_line), file=print_pointer, flush=True) print(escpos['paperfeed_1l'], file=print_pointer, flush=True) print(escpos['paperfeed_1l'], file=print_pointer, flush=True) print(escpos['paperfeed_1l'], file=print_pointer, flush=True) sleep(3) print(escpos['papercut'], file=print_pointer, flush=True) print(escpos['reset'], file=print_pointer, flush=True) # reset when all results are printed if printed == False: results_count = 0 # printNow(query, results, results_count) except: e = sys.exc_info()[0] print("Could not print: {}".format(e)) # query = 'noise' # results, _, _ = readings.request_results(query) # pprint(results) # printNow(query, results, 0)