f = open('./'+args['output']+'.huff', 'wb')
			pickle.dump(coder.omega, f)
		except Exception:
			print('Error while writing huffman-dictionary to file!')
			quit()
		
# We need to uncompress
elif (args['uncompression'] != None):
	if (args['verbose']):
		print('Coding-Mode is set to UN-COMPRESSION!')
		print('Uncompressing data...')
	outputData = coder.decode(inputData)

# WRITE TO OUTPUT FILE
# =====================
if (args['verbose']):
	print('Writing output to file...')
try:
	f = open("./"+args['output'], "w+")
	try:
		f.writelines(outputData)
	finally:
		f.close()
except IOError:
	print('Error wile writing to output file!')
	quit()

if (args['verbose']):
	if (args['compression'] != None):
		coder.verbose()
	print('EVERYTHING WENT BETTER THAN EXCEPTED!')
print('Welchen Aufgabenteil moechten Sie testen?');
print('[1|2|3]');
which = input(">> ")

######### AUFGABE 5.2 TESTS #########
if (which == "3"):
	from huffman import Huffman
	Huff = Huffman()
	Huff.buildOwn = True
	print('Geben Sie einen Text zum codieren ein!');
	text = input('>> ');
	encoded = Huff.encode(text)
	print(encoded)
	print('Dekodiert:')
	print(Huff.decode(encoded))
	Huff.verbose()


######### AUFGABE 5.2 TESTS #########
if (which == "2"):
	from rle import RunLenghtEncoding
	rle = RunLenghtEncoding();

	print('Geben Sie einen Text zum codieren ein!');
	text = input('>> ');
	res = rle.encode(text)

	print("Der Komprimierte Text lautet:")
	print(res)
	print("Der Rück-Kodierte Text lautet:")
	print(rle.decode(res))