def send(self, original_text):
print "original text"
print original_text
len_original_text = 1.0*len(original_text)
# Create dictionary
dictionary = Dictionary(original_text)
# Dictionary encoding
encoded_text = dictionary_encoding(original_text, dictionary)
dict_freq = frequencies_val(original_text)
print "Dictionary encoded"
print encoded_text
with open('Results/dictionary_encoding_output_and_compression_ratio.txt', 'w') as f:
f.write("Encoded text: \n")
f.write(encoded_text+"\n\nFrequencies after dictionary applied:\n")
f.write(str(frequencies(encoded_text)))
f.write("\n\nlen_original_text: "+str(len_original_text)+"\n")
f.write("len_dictionary: "+str(len(encoded_text))+"\n")
f.write("\n\nCompression ratio: "+str(len_original_text/len(encoded_text)))
with open('dictionary_encoding_output.txt', 'w') as f:
f.write(encoded_text)
# Burrows-Wheeler Transform
bwt_encoded_text = BWT(encoded_text)
print "BWT:"
print bwt_encoded_text
with open('Results/bwt_output.txt', 'w') as f:
f.write("frequencies: \n\n"+str(frequencies_from_dictionary(bwt_encoded_text))+"\n\nEncoded text:\n\n")
f.write(str(self.send_text_to_list(bwt_encoded_text)))
f.write("\n\nlen_original_text: "+str(len_original_text)+"\n")
f.write("len_bwt_encoded_text: "+str(len(bwt_encoded_text))+"\n")
f.write("Compression ratio: "+str(len_original_text/len(bwt_encoded_text)))
# Run-length encoding
rle_encoded_text = rle(bwt_encoded_text)
l_dictionary = 0
for e in dict_freq:
l_dictionary += len(e)*dict_freq[e]
l_original_text = len(original_text)
l_RLE = len(rle_encoded_text)
print "l_dictionary: ",l_original_text
print "l_RLE: ",l_RLE
with open('Results/rle_encoded_text_and_compression_ratio.txt', 'w') as f:
f.write("RLE encoded text:\n")
f.write(str(self.send_text_to_list(rle_encoded_text)))
f.write("\n\nFrequencies: \n\n"+str(frequencies_from_dictionary(rle_encoded_text)))
f.write("\n\nlen_original_text: "+str(l_original_text)+"\nlen_RLE: "+str(l_RLE))
f.write("\n\nCompression ratio: "+str((1.0*l_original_text)/l_RLE))
print "RLE"
print rle_encoded_text
###### Encryption ######
start_value = 9
max_value = 83
factor = 4
k = KeyGenerator()
key = k.generate_key(start_value,max_value,factor)
#print key
a = ReducedArrayEncryption(rle_encoded_text,key)
encrypted = a.encrypt()
encrypted_text = a.get_text_encrypted(encrypted[1])
print "Encrypted"
print encrypted_text
with open('Results/Begum_Venkataramani_output.txt', 'w') as f:
f.write("Begum_Venkataramani:\n")
f.write(str(encrypted_text))
f.write("\n\nFrequencies: \n\n"+str(frequencies_bv(encrypted_text)))
f.write("\n\nlen_original_text: "+str(l_original_text)+"\nlen_RLE: "+str(len(encrypted_text)))
f.write("\n\nCompression ratio: "+str((1.0*l_original_text)/len(encrypted_text)))
########################
# Huffman coding
huffman_encoded_text, huffman_root, huffman_codes = huffman_encode(encrypted_text) # The root will be necessary to decode
print "Huffman"
print huffman_encoded_text
with open('Results/huffman_output.txt', 'w') as f:
f.write("huffman_encoded_text:\n")
f.write(str(huffman_encoded_text))
f.write("\n\nCodes: \n\n"+str(huffman_codes))
f.write("\n\nFrequencies: \n\n"+str(frequencies_from_dictionary(huffman_encoded_text)))
f.write("\n\nlen_original_text: "+str(l_original_text)+"\nlen_RLE: "+str(len(huffman_encoded_text)))
f.write("\n\nCompression ratio: "+str((1.0*l_original_text)/len(huffman_encoded_text)))
return [huffman_encoded_text, huffman_root, key, encrypted, dictionary]
from KeyGenerator import KeyGenerator from ReducedArrayEncryption import ReducedArrayEncryption from ReducedArrayDecryption import ReducedArrayDecryption start_value = 3 max_value = 10 factor = 4 k = KeyGenerator() key = k.generate_key(start_value,max_value,factor) print "key: ",key string = "mytextisjusttext" print "string: ",string a = ReducedArrayEncryption(string,key) text_encrypted = a.encrypt() print "text_encrypted",text_encrypted new_text = a.get_text_encrypted(text_encrypted[1]) print "new_text: ", new_text b = ReducedArrayDecryption(new_text,key,text_encrypted[0]) print "original text: ", b.decrypt()
from ReducedArrayEncryption import ReducedArrayEncryption
x = ReducedArrayEncryption('34b5cc',[3, 34, 344])
print x.encrypt()
