Use binascii module for inner loop

This commit is contained in:
Jack Jansen 1995-08-07 14:37:38 +00:00
parent fcdffeaaa1
commit 0a2eaac867
1 changed files with 9 additions and 88 deletions

View File

@ -16,7 +16,12 @@
# WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN # WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
# ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT # ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT
# OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. # OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
#
# Modified by Jack Jansen, CWI, July 1995:
# - Use binascii module to do the actual line-by-line conversion
# between ascii and binary. This results in a 1000-fold speedup. The C
# version is still 5 times faster, though.
#
# This file implements the UUencode and UUdecode functions. # This file implements the UUencode and UUdecode functions.
# encode(filename, mode, in_file, out_file) # encode(filename, mode, in_file, out_file)
@ -24,102 +29,18 @@
# decode(in_file, out_file) # decode(in_file, out_file)
# decode(in_file) # decode(in_file)
# encode a single char to always be printable import binascii
def _ENC(ch):
if type(ch) == type(''):
a = ch[:1] # only 1 char
if len(a) == 0:
raise ValueError, 'need to pass in at least 1 char'
a = ord(a)
elif type(ch) == type(0):
a = ch
else:
raise TypeError, 'must pass in an integer or single character'
return chr((a & 077) + ord(' '))
# input 3 chars, output 4 encoded chars
def _outenc(str):
if len(str) > 3:
raise ValueError, 'can only accept strings of 3 chars'
p0, p1, p2 = 0, 0, 0
if len(str) > 2:
p2 = ord(str[2])
if len(str) > 1:
p1 = ord(str[1])
if len(str) > 0:
p0 = ord(str[0])
c1 = p0 >> 2
c2 = (p0 << 4) & 060 | (p1 >> 4) & 017
c3 = (p1 << 2) & 074 | (p2 >> 6) & 03
c4 = p2 & 077
rtn = _ENC(c1)
rtn = rtn + _ENC(c2)
rtn = rtn + _ENC(c3)
rtn = rtn + _ENC(c4)
return rtn
# pass in 45 bytes max, returns 62 bytes encoded
def _encode(str):
if len(str) > 45:
raise ValueError, 'cannot handle more than 45 chars at once'
length = len(str)
rtn = _ENC(length)
i = 0
while i < length:
rtn = rtn + _outenc(str[i:(i+3)])
i = i + 3
rtn = rtn + '\n'
return rtn
# encode a fileobject and write out to a file object # encode a fileobject and write out to a file object
def encode(filename, mode, in_file, out_file): def encode(filename, mode, in_file, out_file):
out_file.write('begin %o %s\n' % ((mode&0777),filename)) out_file.write('begin %o %s\n' % ((mode&0777),filename))
str = in_file.read(45) str = in_file.read(45)
while len(str) > 0: while len(str) > 0:
out_file.write(_encode(str)) out_file.write(binascii.b2a_uu(str))
str = in_file.read(45) str = in_file.read(45)
out_file.write(' \nend\n') out_file.write(' \nend\n')
return None return None
# def decode a single char from printable to possibly non-printable
def _DEC(ch):
if type(ch) != type('') or len(ch) != 1:
raise ValueError, 'need to pass in a single char'
a = ord(ch[0:1])
return (a - ord(' '))
# input 4 chars encoded, output 3 chars unencoded
def _outdec(str):
if len(str) > 4:
raise ValueError, 'can only accept strings of 4 chars'
p0, p1, p2, p3 = 0, 0, 0, 0
if len(str) > 3:
p3 = _DEC(str[3])
if len(str) > 2:
p2 = _DEC(str[2])
if len(str) > 1:
p1 = _DEC(str[1])
if len(str) > 0:
p0 = _DEC(str[0])
c1 = p0 << 2 | (p1 & 060) >> 4
c2 = (p1 & 017) << 4 | (p2 & 074) >> 2
c3 = (p2 & 03) << 6 | (p3 & 077)
rtn = chr(c1)
rtn = rtn + chr(c2)
rtn = rtn + chr(c3)
return rtn
# pass in 62 bytes and return 45 bytes unencoded
def _decode(str):
if len(str) > 62:
raise ValueError, 'cannot handle more than 62 chars at once'
length = _DEC(str[0])
i = 1
rtn = ''
while len(rtn) < length:
rtn = rtn + _outdec(str[i:(i+4)])
i = i + 4
return rtn[0:length]
# decode(filename, mode, in_file) # decode(filename, mode, in_file)
# decode(in_file, out_file) # decode(in_file, out_file)
@ -183,7 +104,7 @@ def decode(*args):
out_file, _out_file_orig = _setup(out_file, args) out_file, _out_file_orig = _setup(out_file, args)
str = in_file.readline() str = in_file.readline()
while len(str) > 0 and str != ' \n' and str != 'end\n': while len(str) > 0 and str != ' \n' and str != 'end\n':
out_file.write(_decode(str)) out_file.write(binascii.a2b_uu(str))
str = in_file.readline() str = in_file.readline()
if _out_file_orig == 0: if _out_file_orig == 0:
out_file.close() out_file.close()