Mainlining the string_methods branch. See branch revision log

messages for specific changes.
This commit is contained in:
Barry Warsaw 1999-10-12 19:54:53 +00:00
parent 75260275fe
commit 226ae6ca12
9 changed files with 1776 additions and 980 deletions

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@ -50,6 +50,7 @@ extern DL_IMPORT(PyTypeObject) PyFloat_Type;
#define PyFloat_Check(op) ((op)->ob_type == &PyFloat_Type)
extern DL_IMPORT(PyObject *) PyFloat_FromString Py_PROTO((PyObject*, char**));
extern DL_IMPORT(PyObject *) PyFloat_FromDouble Py_PROTO((double));
extern DL_IMPORT(double) PyFloat_AsDouble Py_PROTO((PyObject *));

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@ -61,6 +61,7 @@ extern DL_IMPORT(PyTypeObject) PyInt_Type;
#define PyInt_Check(op) ((op)->ob_type == &PyInt_Type)
extern DL_IMPORT(PyObject *) PyInt_FromString Py_PROTO((char*, char**, int));
extern DL_IMPORT(PyObject *) PyInt_FromLong Py_PROTO((long));
extern DL_IMPORT(long) PyInt_AsLong Py_PROTO((PyObject *));
extern DL_IMPORT(long) PyInt_GetMax Py_PROTO((void));

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@ -1,8 +1,9 @@
# module 'string' -- A collection of string operations
# Warning: most of the code you see here isn't normally used nowadays.
# At the end of this file most functions are replaced by built-in
# functions imported from built-in module "strop".
# Warning: most of the code you see here isn't normally used nowadays. With
# Python 1.6, many of these functions are implemented as methods on the
# standard string object. They used to be implemented by a built-in module
# called strop, but strop is now obsolete itself.
"""Common string manipulations.
@ -30,9 +31,6 @@ octdigits = '01234567'
# Case conversion helpers
_idmap = ''
for i in range(256): _idmap = _idmap + chr(i)
_lower = _idmap[:ord('A')] + lowercase + _idmap[ord('Z')+1:]
_upper = _idmap[:ord('a')] + uppercase + _idmap[ord('z')+1:]
_swapcase = _upper[:ord('A')] + lowercase + _upper[ord('Z')+1:]
del i
# Backward compatible names for exceptions
@ -43,544 +41,391 @@ atol_error = ValueError
# convert UPPER CASE letters to lower case
def lower(s):
"""lower(s) -> string
"""lower(s) -> string
Return a copy of the string s converted to lowercase.
Return a copy of the string s converted to lowercase.
"""
res = ''
for c in s:
res = res + _lower[ord(c)]
return res
"""
return s.lower()
# Convert lower case letters to UPPER CASE
def upper(s):
"""upper(s) -> string
"""upper(s) -> string
Return a copy of the string s converted to uppercase.
Return a copy of the string s converted to uppercase.
"""
res = ''
for c in s:
res = res + _upper[ord(c)]
return res
"""
return s.upper()
# Swap lower case letters and UPPER CASE
def swapcase(s):
"""swapcase(s) -> string
"""swapcase(s) -> string
Return a copy of the string s with upper case characters
converted to lowercase and vice versa.
Return a copy of the string s with upper case characters
converted to lowercase and vice versa.
"""
res = ''
for c in s:
res = res + _swapcase[ord(c)]
return res
"""
return s.swapcase()
# Strip leading and trailing tabs and spaces
def strip(s):
"""strip(s) -> string
"""strip(s) -> string
Return a copy of the string s with leading and trailing
whitespace removed.
Return a copy of the string s with leading and trailing
whitespace removed.
"""
i, j = 0, len(s)
while i < j and s[i] in whitespace: i = i+1
while i < j and s[j-1] in whitespace: j = j-1
return s[i:j]
"""
return s.strip()
# Strip leading tabs and spaces
def lstrip(s):
"""lstrip(s) -> string
"""lstrip(s) -> string
Return a copy of the string s with leading whitespace removed.
Return a copy of the string s with leading whitespace removed.
"""
i, j = 0, len(s)
while i < j and s[i] in whitespace: i = i+1
return s[i:j]
"""
return s.lstrip()
# Strip trailing tabs and spaces
def rstrip(s):
"""rstrip(s) -> string
"""rstrip(s) -> string
Return a copy of the string s with trailing whitespace
removed.
Return a copy of the string s with trailing whitespace
removed.
"""
i, j = 0, len(s)
while i < j and s[j-1] in whitespace: j = j-1
return s[i:j]
"""
return s.rstrip()
# Split a string into a list of space/tab-separated words
# NB: split(s) is NOT the same as splitfields(s, ' ')!
def split(s, sep=None, maxsplit=0):
"""split(str [,sep [,maxsplit]]) -> list of strings
"""split(str [,sep [,maxsplit]]) -> list of strings
Return a list of the words in the string s, using sep as the
delimiter string. If maxsplit is nonzero, splits into at most
maxsplit words If sep is not specified, any whitespace string
is a separator. Maxsplit defaults to 0.
Return a list of the words in the string s, using sep as the
delimiter string. If maxsplit is nonzero, splits into at most
maxsplit words If sep is not specified, any whitespace string
is a separator. Maxsplit defaults to 0.
(split and splitfields are synonymous)
(split and splitfields are synonymous)
"""
if sep is not None: return splitfields(s, sep, maxsplit)
res = []
i, n = 0, len(s)
if maxsplit <= 0: maxsplit = n
count = 0
while i < n:
while i < n and s[i] in whitespace: i = i+1
if i == n: break
if count >= maxsplit:
res.append(s[i:])
break
j = i
while j < n and s[j] not in whitespace: j = j+1
count = count + 1
res.append(s[i:j])
i = j
return res
# Split a list into fields separated by a given string
# NB: splitfields(s, ' ') is NOT the same as split(s)!
# splitfields(s, '') returns [s] (in analogy with split() in nawk)
def splitfields(s, sep=None, maxsplit=0):
"""splitfields(str [,sep [,maxsplit]]) -> list of strings
Return a list of the words in the string s, using sep as the
delimiter string. If maxsplit is nonzero, splits into at most
maxsplit words If sep is not specified, any whitespace string
is a separator. Maxsplit defaults to 0.
(split and splitfields are synonymous)
"""
if sep is None: return split(s, None, maxsplit)
res = []
nsep = len(sep)
if nsep == 0:
return [s]
ns = len(s)
if maxsplit <= 0: maxsplit = ns
i = j = 0
count = 0
while j+nsep <= ns:
if s[j:j+nsep] == sep:
count = count + 1
res.append(s[i:j])
i = j = j + nsep
if count >= maxsplit: break
else:
j = j + 1
res.append(s[i:])
return res
# Join words with spaces between them
def join(words, sep = ' '):
"""join(list [,sep]) -> string
Return a string composed of the words in list, with
intervening occurences of sep. Sep defaults to a single
space.
(joinfields and join are synonymous)
"""
return joinfields(words, sep)
"""
return s.split(sep, maxsplit)
splitfields = split
# Join fields with optional separator
def joinfields(words, sep = ' '):
"""joinfields(list [,sep]) -> string
def join(words, sep = ' '):
"""join(list [,sep]) -> string
Return a string composed of the words in list, with
intervening occurences of sep. The default separator is a
single space.
Return a string composed of the words in list, with
intervening occurences of sep. The default separator is a
single space.
(joinfields and join are synonymous)
(joinfields and join are synonymous)
"""
res = ''
for w in words:
res = res + (sep + w)
return res[len(sep):]
"""
return sep.join(words)
joinfields = join
# for a little bit of speed
_apply = apply
# Find substring, raise exception if not found
def index(s, sub, i = 0, last=None):
"""index(s, sub [,start [,end]]) -> int
def index(s, *args):
"""index(s, sub [,start [,end]]) -> int
Return the lowest index in s where substring sub is found,
such that sub is contained within s[start,end]. Optional
arguments start and end are interpreted as in slice notation.
Like find but raises ValueError when the substring is not found.
Raise ValueError if not found.
"""
if last is None: last = len(s)
res = find(s, sub, i, last)
if res < 0:
raise ValueError, 'substring not found in string.index'
return res
"""
return _apply(s.index, args)
# Find last substring, raise exception if not found
def rindex(s, sub, i = 0, last=None):
"""rindex(s, sub [,start [,end]]) -> int
def rindex(s, *args):
"""rindex(s, sub [,start [,end]]) -> int
Return the highest index in s where substring sub is found,
such that sub is contained within s[start,end]. Optional
arguments start and end are interpreted as in slice notation.
Like rfind but raises ValueError when the substring is not found.
Raise ValueError if not found.
"""
if last is None: last = len(s)
res = rfind(s, sub, i, last)
if res < 0:
raise ValueError, 'substring not found in string.index'
return res
"""
return _apply(s.rindex, args)
# Count non-overlapping occurrences of substring
def count(s, sub, i = 0, last=None):
"""count(s, sub[, start[,end]]) -> int
def count(s, *args):
"""count(s, sub[, start[,end]]) -> int
Return the number of occurrences of substring sub in string
s[start:end]. Optional arguments start and end are
interpreted as in slice notation.
Return the number of occurrences of substring sub in string
s[start:end]. Optional arguments start and end are
interpreted as in slice notation.
"""
Slen = len(s) # cache this value, for speed
if last is None:
last = Slen
elif last < 0:
last = max(0, last + Slen)
elif last > Slen:
last = Slen
if i < 0: i = max(0, i + Slen)
n = len(sub)
m = last + 1 - n
if n == 0: return m-i
r = 0
while i < m:
if sub == s[i:i+n]:
r = r+1
i = i+n
else:
i = i+1
return r
"""
return _apply(s.count, args)
# Find substring, return -1 if not found
def find(s, sub, i = 0, last=None):
"""find(s, sub [,start [,end]]) -> in
def find(s, *args):
"""find(s, sub [,start [,end]]) -> in
Return the lowest index in s where substring sub is found,
such that sub is contained within s[start,end]. Optional
arguments start and end are interpreted as in slice notation.
Return the lowest index in s where substring sub is found,
such that sub is contained within s[start,end]. Optional
arguments start and end are interpreted as in slice notation.
Return -1 on failure.
Return -1 on failure.
"""
Slen = len(s) # cache this value, for speed
if last is None:
last = Slen
elif last < 0:
last = max(0, last + Slen)
elif last > Slen:
last = Slen
if i < 0: i = max(0, i + Slen)
n = len(sub)
m = last + 1 - n
while i < m:
if sub == s[i:i+n]: return i
i = i+1
return -1
"""
return _apply(s.find, args)
# Find last substring, return -1 if not found
def rfind(s, sub, i = 0, last=None):
"""rfind(s, sub [,start [,end]]) -> int
def rfind(s, *args):
"""rfind(s, sub [,start [,end]]) -> int
Return the highest index in s where substring sub is found,
such that sub is contained within s[start,end]. Optional
arguments start and end are interpreted as in slice notation.
Return the highest index in s where substring sub is found,
such that sub is contained within s[start,end]. Optional
arguments start and end are interpreted as in slice notation.
Return -1 on failure.
Return -1 on failure.
"""
Slen = len(s) # cache this value, for speed
if last is None:
last = Slen
elif last < 0:
last = max(0, last + Slen)
elif last > Slen:
last = Slen
if i < 0: i = max(0, i + Slen)
n = len(sub)
m = last + 1 - n
r = -1
while i < m:
if sub == s[i:i+n]: r = i
i = i+1
return r
"""
return _apply(s.rfind, args)
# "Safe" environment for eval()
_safe_env = {"__builtins__": {}}
# for a bit of speed
_float = float
_int = int
_long = long
_StringType = type('')
# Convert string to float
_re = None
def atof(str):
"""atof(s) -> float
def atof(s):
"""atof(s) -> float
Return the floating point number represented by the string s.
Return the floating point number represented by the string s.
"""
global _re
if _re is None:
# Don't fail if re doesn't exist -- just skip the syntax check
try:
import re
except ImportError:
_re = 0
else:
_re = re
sign = ''
s = strip(str)
if s and s[0] in '+-':
sign = s[0]
s = s[1:]
if not s:
raise ValueError, 'non-float argument to string.atof'
while s[0] == '0' and len(s) > 1 and s[1] in digits: s = s[1:]
if _re and not _re.match('[0-9]*(\.[0-9]*)?([eE][-+]?[0-9]+)?$', s):
raise ValueError, 'non-float argument to string.atof'
try:
return float(eval(sign + s, _safe_env))
except SyntaxError:
raise ValueError, 'non-float argument to string.atof'
"""
if type(s) == _StringType:
return _float(s)
else:
raise TypeError('argument 1: expected string, %s found' %
type(s).__name__)
# Convert string to integer
def atoi(str, base=10):
"""atoi(s [,base]) -> int
def atoi(*args):
"""atoi(s [,base]) -> int
Return the integer represented by the string s in the given
base, which defaults to 10. The string s must consist of one
or more digits, possibly preceded by a sign. If base is 0, it
is chosen from the leading characters of s, 0 for octal, 0x or
0X for hexadecimal. If base is 16, a preceding 0x or 0X is
accepted.
Return the integer represented by the string s in the given
base, which defaults to 10. The string s must consist of one
or more digits, possibly preceded by a sign. If base is 0, it
is chosen from the leading characters of s, 0 for octal, 0x or
0X for hexadecimal. If base is 16, a preceding 0x or 0X is
accepted.
"""
try:
s = args[0]
except IndexError:
raise TypeError('function requires at least 1 argument: %d given' %
len(args))
# Don't catch type error resulting from too many arguments to int(). The
# error message isn't compatible but the error type is, and this function
# is complicated enough already.
if type(s) == _StringType:
return _apply(_int, args)
else:
raise TypeError('argument 1: expected string, %s found' %
type(s).__name__)
"""
if base != 10:
# We only get here if strop doesn't define atoi()
raise ValueError, "this string.atoi doesn't support base != 10"
sign = ''
s = strip(str)
if s and s[0] in '+-':
sign = s[0]
s = s[1:]
if not s:
raise ValueError, 'non-integer argument to string.atoi'
while s[0] == '0' and len(s) > 1: s = s[1:]
for c in s:
if c not in digits:
raise ValueError, 'non-integer argument to string.atoi'
return eval(sign + s, _safe_env)
# Convert string to long integer
def atol(str, base=10):
"""atol(s [,base]) -> long
def atol(*args):
"""atol(s [,base]) -> long
Return the long integer represented by the string s in the
given base, which defaults to 10. The string s must consist
of one or more digits, possibly preceded by a sign. If base
is 0, it is chosen from the leading characters of s, 0 for
octal, 0x or 0X for hexadecimal. If base is 16, a preceding
0x or 0X is accepted. A trailing L or l is not accepted,
unless base is 0.
Return the long integer represented by the string s in the
given base, which defaults to 10. The string s must consist
of one or more digits, possibly preceded by a sign. If base
is 0, it is chosen from the leading characters of s, 0 for
octal, 0x or 0X for hexadecimal. If base is 16, a preceding
0x or 0X is accepted. A trailing L or l is not accepted,
unless base is 0.
"""
try:
s = args[0]
except IndexError:
raise TypeError('function requires at least 1 argument: %d given' %
len(args))
# Don't catch type error resulting from too many arguments to long(). The
# error message isn't compatible but the error type is, and this function
# is complicated enough already.
if type(s) == _StringType:
return _apply(_long, args)
else:
raise TypeError('argument 1: expected string, %s found' %
type(s).__name__)
"""
if base != 10:
# We only get here if strop doesn't define atol()
raise ValueError, "this string.atol doesn't support base != 10"
sign = ''
s = strip(str)
if s and s[0] in '+-':
sign = s[0]
s = s[1:]
if not s:
raise ValueError, 'non-integer argument to string.atol'
while s[0] == '0' and len(s) > 1: s = s[1:]
for c in s:
if c not in digits:
raise ValueError, 'non-integer argument to string.atol'
return eval(sign + s + 'L', _safe_env)
# Left-justify a string
def ljust(s, width):
"""ljust(s, width) -> string
"""ljust(s, width) -> string
Return a left-justified version of s, in a field of the
specified width, padded with spaces as needed. The string is
never truncated.
Return a left-justified version of s, in a field of the
specified width, padded with spaces as needed. The string is
never truncated.
"""
n = width - len(s)
if n <= 0: return s
return s + ' '*n
"""
n = width - len(s)
if n <= 0: return s
return s + ' '*n
# Right-justify a string
def rjust(s, width):
"""rjust(s, width) -> string
"""rjust(s, width) -> string
Return a right-justified version of s, in a field of the
specified width, padded with spaces as needed. The string is
never truncated.
Return a right-justified version of s, in a field of the
specified width, padded with spaces as needed. The string is
never truncated.
"""
n = width - len(s)
if n <= 0: return s
return ' '*n + s
"""
n = width - len(s)
if n <= 0: return s
return ' '*n + s
# Center a string
def center(s, width):
"""center(s, width) -> string
"""center(s, width) -> string
Return a center version of s, in a field of the specified
width. padded with spaces as needed. The string is never
truncated.
Return a center version of s, in a field of the specified
width. padded with spaces as needed. The string is never
truncated.
"""
n = width - len(s)
if n <= 0: return s
half = n/2
if n%2 and width%2:
# This ensures that center(center(s, i), j) = center(s, j)
half = half+1
return ' '*half + s + ' '*(n-half)
"""
n = width - len(s)
if n <= 0: return s
half = n/2
if n%2 and width%2:
# This ensures that center(center(s, i), j) = center(s, j)
half = half+1
return ' '*half + s + ' '*(n-half)
# Zero-fill a number, e.g., (12, 3) --> '012' and (-3, 3) --> '-03'
# Decadent feature: the argument may be a string or a number
# (Use of this is deprecated; it should be a string as with ljust c.s.)
def zfill(x, width):
"""zfill(x, width) -> string
"""zfill(x, width) -> string
Pad a numeric string x with zeros on the left, to fill a field
of the specified width. The string x is never truncated.
Pad a numeric string x with zeros on the left, to fill a field
of the specified width. The string x is never truncated.
"""
if type(x) == type(''): s = x
else: s = `x`
n = len(s)
if n >= width: return s
sign = ''
if s[:1] in ('-', '+'):
sign, s = s[0], s[1:]
return sign + '0'*(width-n) + s
"""
if type(x) == type(''): s = x
else: s = `x`
n = len(s)
if n >= width: return s
sign = ''
if s[0] in ('-', '+'):
sign, s = s[0], s[1:]
return sign + '0'*(width-n) + s
# Expand tabs in a string.
# Doesn't take non-printing chars into account, but does understand \n.
def expandtabs(s, tabsize=8):
"""expandtabs(s [,tabsize]) -> string
"""expandtabs(s [,tabsize]) -> string
Return a copy of the string s with all tab characters replaced
by the appropriate number of spaces, depending on the current
column, and the tabsize (default 8).
Return a copy of the string s with all tab characters replaced
by the appropriate number of spaces, depending on the current
column, and the tabsize (default 8).
"""
res = line = ''
for c in s:
if c == '\t':
c = ' '*(tabsize - len(line)%tabsize)
line = line + c
if c == '\n':
res = res + line
line = ''
return res + line
"""
res = line = ''
for c in s:
if c == '\t':
c = ' '*(tabsize - len(line) % tabsize)
line = line + c
if c == '\n':
res = res + line
line = ''
return res + line
# Character translation through look-up table.
def translate(s, table, deletions=""):
"""translate(s,table [,deletechars]) -> string
"""translate(s,table [,deletechars]) -> string
Return a copy of the string s, where all characters occurring
in the optional argument deletechars are removed, and the
remaining characters have been mapped through the given
translation table, which must be a string of length 256.
Return a copy of the string s, where all characters occurring
in the optional argument deletechars are removed, and the
remaining characters have been mapped through the given
translation table, which must be a string of length 256.
"""
if type(table) != type('') or len(table) != 256:
raise TypeError, \
"translation table must be 256 characters long"
res = ""
for c in s:
if c not in deletions:
res = res + table[ord(c)]
return res
"""
return s.translate(table, deletions)
# Capitalize a string, e.g. "aBc dEf" -> "Abc def".
def capitalize(s):
"""capitalize(s) -> string
"""capitalize(s) -> string
Return a copy of the string s with only its first character
capitalized.
Return a copy of the string s with only its first character
capitalized.
"""
return upper(s[:1]) + lower(s[1:])
"""
return s.capitalize()
# Capitalize the words in a string, e.g. " aBc dEf " -> "Abc Def".
# See also regsub.capwords().
def capwords(s, sep=None):
"""capwords(s, [sep]) -> string
"""capwords(s, [sep]) -> string
Split the argument into words using split, capitalize each
word using capitalize, and join the capitalized words using
join. Note that this replaces runs of whitespace characters by
a single space.
Split the argument into words using split, capitalize each
word using capitalize, and join the capitalized words using
join. Note that this replaces runs of whitespace characters by
a single space.
"""
return join(map(capitalize, split(s, sep)), sep or ' ')
"""
return join(map(capitalize, s.split(sep)), sep or ' ')
# Construct a translation string
_idmapL = None
def maketrans(fromstr, tostr):
"""maketrans(frm, to) -> string
"""maketrans(frm, to) -> string
Return a translation table (a string of 256 bytes long)
suitable for use in string.translate. The strings frm and to
must be of the same length.
Return a translation table (a string of 256 bytes long)
suitable for use in string.translate. The strings frm and to
must be of the same length.
"""
if len(fromstr) != len(tostr):
raise ValueError, "maketrans arguments must have same length"
global _idmapL
if not _idmapL:
_idmapL = map(None, _idmap)
L = _idmapL[:]
fromstr = map(ord, fromstr)
for i in range(len(fromstr)):
L[fromstr[i]] = tostr[i]
return joinfields(L, "")
"""
if len(fromstr) != len(tostr):
raise ValueError, "maketrans arguments must have same length"
global _idmapL
if not _idmapL:
_idmapL = map(None, _idmap)
L = _idmapL[:]
fromstr = map(ord, fromstr)
for i in range(len(fromstr)):
L[fromstr[i]] = tostr[i]
return joinfields(L, "")
# Substring replacement (global)
def replace(str, old, new, maxsplit=0):
"""replace (str, old, new[, maxsplit]) -> string
def replace(s, old, new, maxsplit=0):
"""replace (str, old, new[, maxsplit]) -> string
Return a copy of string str with all occurrences of substring
old replaced by new. If the optional argument maxsplit is
given, only the first maxsplit occurrences are replaced.
Return a copy of string str with all occurrences of substring
old replaced by new. If the optional argument maxsplit is
given, only the first maxsplit occurrences are replaced.
"""
return joinfields(splitfields(str, old, maxsplit), new)
"""
return s.replace(old, new, maxsplit)
# XXX: transitional
#
# If string objects do not have methods, then we need to use the old string.py
# library, which uses strop for many more things than just the few outlined
# below.
try:
''.upper
except AttributeError:
from stringold import *
# Try importing optional built-in module "strop" -- if it exists,
# it redefines some string operations that are 100-1000 times faster.
# It also defines values for whitespace, lowercase and uppercase
# that match <ctype.h>'s definitions.
try:
from strop import *
letters = lowercase + uppercase
from strop import maketrans, lowercase, uppercase, whitespace
letters = lowercase + uppercase
except ImportError:
pass # Use the original, slow versions
pass # Use the original versions

View File

@ -1,8 +1,9 @@
# module 'string' -- A collection of string operations
# Warning: most of the code you see here isn't normally used nowadays.
# At the end of this file most functions are replaced by built-in
# functions imported from built-in module "strop".
# Warning: most of the code you see here isn't normally used nowadays. With
# Python 1.6, many of these functions are implemented as methods on the
# standard string object. They used to be implemented by a built-in module
# called strop, but strop is now obsolete itself.
"""Common string manipulations.
@ -30,9 +31,6 @@ octdigits = '01234567'
# Case conversion helpers
_idmap = ''
for i in range(256): _idmap = _idmap + chr(i)
_lower = _idmap[:ord('A')] + lowercase + _idmap[ord('Z')+1:]
_upper = _idmap[:ord('a')] + uppercase + _idmap[ord('z')+1:]
_swapcase = _upper[:ord('A')] + lowercase + _upper[ord('Z')+1:]
del i
# Backward compatible names for exceptions
@ -43,544 +41,391 @@ atol_error = ValueError
# convert UPPER CASE letters to lower case
def lower(s):
"""lower(s) -> string
"""lower(s) -> string
Return a copy of the string s converted to lowercase.
Return a copy of the string s converted to lowercase.
"""
res = ''
for c in s:
res = res + _lower[ord(c)]
return res
"""
return s.lower()
# Convert lower case letters to UPPER CASE
def upper(s):
"""upper(s) -> string
"""upper(s) -> string
Return a copy of the string s converted to uppercase.
Return a copy of the string s converted to uppercase.
"""
res = ''
for c in s:
res = res + _upper[ord(c)]
return res
"""
return s.upper()
# Swap lower case letters and UPPER CASE
def swapcase(s):
"""swapcase(s) -> string
"""swapcase(s) -> string
Return a copy of the string s with upper case characters
converted to lowercase and vice versa.
Return a copy of the string s with upper case characters
converted to lowercase and vice versa.
"""
res = ''
for c in s:
res = res + _swapcase[ord(c)]
return res
"""
return s.swapcase()
# Strip leading and trailing tabs and spaces
def strip(s):
"""strip(s) -> string
"""strip(s) -> string
Return a copy of the string s with leading and trailing
whitespace removed.
Return a copy of the string s with leading and trailing
whitespace removed.
"""
i, j = 0, len(s)
while i < j and s[i] in whitespace: i = i+1
while i < j and s[j-1] in whitespace: j = j-1
return s[i:j]
"""
return s.strip()
# Strip leading tabs and spaces
def lstrip(s):
"""lstrip(s) -> string
"""lstrip(s) -> string
Return a copy of the string s with leading whitespace removed.
Return a copy of the string s with leading whitespace removed.
"""
i, j = 0, len(s)
while i < j and s[i] in whitespace: i = i+1
return s[i:j]
"""
return s.lstrip()
# Strip trailing tabs and spaces
def rstrip(s):
"""rstrip(s) -> string
"""rstrip(s) -> string
Return a copy of the string s with trailing whitespace
removed.
Return a copy of the string s with trailing whitespace
removed.
"""
i, j = 0, len(s)
while i < j and s[j-1] in whitespace: j = j-1
return s[i:j]
"""
return s.rstrip()
# Split a string into a list of space/tab-separated words
# NB: split(s) is NOT the same as splitfields(s, ' ')!
def split(s, sep=None, maxsplit=0):
"""split(str [,sep [,maxsplit]]) -> list of strings
"""split(str [,sep [,maxsplit]]) -> list of strings
Return a list of the words in the string s, using sep as the
delimiter string. If maxsplit is nonzero, splits into at most
maxsplit words If sep is not specified, any whitespace string
is a separator. Maxsplit defaults to 0.
Return a list of the words in the string s, using sep as the
delimiter string. If maxsplit is nonzero, splits into at most
maxsplit words If sep is not specified, any whitespace string
is a separator. Maxsplit defaults to 0.
(split and splitfields are synonymous)
(split and splitfields are synonymous)
"""
if sep is not None: return splitfields(s, sep, maxsplit)
res = []
i, n = 0, len(s)
if maxsplit <= 0: maxsplit = n
count = 0
while i < n:
while i < n and s[i] in whitespace: i = i+1
if i == n: break
if count >= maxsplit:
res.append(s[i:])
break
j = i
while j < n and s[j] not in whitespace: j = j+1
count = count + 1
res.append(s[i:j])
i = j
return res
# Split a list into fields separated by a given string
# NB: splitfields(s, ' ') is NOT the same as split(s)!
# splitfields(s, '') returns [s] (in analogy with split() in nawk)
def splitfields(s, sep=None, maxsplit=0):
"""splitfields(str [,sep [,maxsplit]]) -> list of strings
Return a list of the words in the string s, using sep as the
delimiter string. If maxsplit is nonzero, splits into at most
maxsplit words If sep is not specified, any whitespace string
is a separator. Maxsplit defaults to 0.
(split and splitfields are synonymous)
"""
if sep is None: return split(s, None, maxsplit)
res = []
nsep = len(sep)
if nsep == 0:
return [s]
ns = len(s)
if maxsplit <= 0: maxsplit = ns
i = j = 0
count = 0
while j+nsep <= ns:
if s[j:j+nsep] == sep:
count = count + 1
res.append(s[i:j])
i = j = j + nsep
if count >= maxsplit: break
else:
j = j + 1
res.append(s[i:])
return res
# Join words with spaces between them
def join(words, sep = ' '):
"""join(list [,sep]) -> string
Return a string composed of the words in list, with
intervening occurences of sep. Sep defaults to a single
space.
(joinfields and join are synonymous)
"""
return joinfields(words, sep)
"""
return s.split(sep, maxsplit)
splitfields = split
# Join fields with optional separator
def joinfields(words, sep = ' '):
"""joinfields(list [,sep]) -> string
def join(words, sep = ' '):
"""join(list [,sep]) -> string
Return a string composed of the words in list, with
intervening occurences of sep. The default separator is a
single space.
Return a string composed of the words in list, with
intervening occurences of sep. The default separator is a
single space.
(joinfields and join are synonymous)
(joinfields and join are synonymous)
"""
res = ''
for w in words:
res = res + (sep + w)
return res[len(sep):]
"""
return sep.join(words)
joinfields = join
# for a little bit of speed
_apply = apply
# Find substring, raise exception if not found
def index(s, sub, i = 0, last=None):
"""index(s, sub [,start [,end]]) -> int
def index(s, *args):
"""index(s, sub [,start [,end]]) -> int
Return the lowest index in s where substring sub is found,
such that sub is contained within s[start,end]. Optional
arguments start and end are interpreted as in slice notation.
Like find but raises ValueError when the substring is not found.
Raise ValueError if not found.
"""
if last is None: last = len(s)
res = find(s, sub, i, last)
if res < 0:
raise ValueError, 'substring not found in string.index'
return res
"""
return _apply(s.index, args)
# Find last substring, raise exception if not found
def rindex(s, sub, i = 0, last=None):
"""rindex(s, sub [,start [,end]]) -> int
def rindex(s, *args):
"""rindex(s, sub [,start [,end]]) -> int
Return the highest index in s where substring sub is found,
such that sub is contained within s[start,end]. Optional
arguments start and end are interpreted as in slice notation.
Like rfind but raises ValueError when the substring is not found.
Raise ValueError if not found.
"""
if last is None: last = len(s)
res = rfind(s, sub, i, last)
if res < 0:
raise ValueError, 'substring not found in string.index'
return res
"""
return _apply(s.rindex, args)
# Count non-overlapping occurrences of substring
def count(s, sub, i = 0, last=None):
"""count(s, sub[, start[,end]]) -> int
def count(s, *args):
"""count(s, sub[, start[,end]]) -> int
Return the number of occurrences of substring sub in string
s[start:end]. Optional arguments start and end are
interpreted as in slice notation.
Return the number of occurrences of substring sub in string
s[start:end]. Optional arguments start and end are
interpreted as in slice notation.
"""
Slen = len(s) # cache this value, for speed
if last is None:
last = Slen
elif last < 0:
last = max(0, last + Slen)
elif last > Slen:
last = Slen
if i < 0: i = max(0, i + Slen)
n = len(sub)
m = last + 1 - n
if n == 0: return m-i
r = 0
while i < m:
if sub == s[i:i+n]:
r = r+1
i = i+n
else:
i = i+1
return r
"""
return _apply(s.count, args)
# Find substring, return -1 if not found
def find(s, sub, i = 0, last=None):
"""find(s, sub [,start [,end]]) -> in
def find(s, *args):
"""find(s, sub [,start [,end]]) -> in
Return the lowest index in s where substring sub is found,
such that sub is contained within s[start,end]. Optional
arguments start and end are interpreted as in slice notation.
Return the lowest index in s where substring sub is found,
such that sub is contained within s[start,end]. Optional
arguments start and end are interpreted as in slice notation.
Return -1 on failure.
Return -1 on failure.
"""
Slen = len(s) # cache this value, for speed
if last is None:
last = Slen
elif last < 0:
last = max(0, last + Slen)
elif last > Slen:
last = Slen
if i < 0: i = max(0, i + Slen)
n = len(sub)
m = last + 1 - n
while i < m:
if sub == s[i:i+n]: return i
i = i+1
return -1
"""
return _apply(s.find, args)
# Find last substring, return -1 if not found
def rfind(s, sub, i = 0, last=None):
"""rfind(s, sub [,start [,end]]) -> int
def rfind(s, *args):
"""rfind(s, sub [,start [,end]]) -> int
Return the highest index in s where substring sub is found,
such that sub is contained within s[start,end]. Optional
arguments start and end are interpreted as in slice notation.
Return the highest index in s where substring sub is found,
such that sub is contained within s[start,end]. Optional
arguments start and end are interpreted as in slice notation.
Return -1 on failure.
Return -1 on failure.
"""
Slen = len(s) # cache this value, for speed
if last is None:
last = Slen
elif last < 0:
last = max(0, last + Slen)
elif last > Slen:
last = Slen
if i < 0: i = max(0, i + Slen)
n = len(sub)
m = last + 1 - n
r = -1
while i < m:
if sub == s[i:i+n]: r = i
i = i+1
return r
"""
return _apply(s.rfind, args)
# "Safe" environment for eval()
_safe_env = {"__builtins__": {}}
# for a bit of speed
_float = float
_int = int
_long = long
_StringType = type('')
# Convert string to float
_re = None
def atof(str):
"""atof(s) -> float
def atof(s):
"""atof(s) -> float
Return the floating point number represented by the string s.
Return the floating point number represented by the string s.
"""
global _re
if _re is None:
# Don't fail if re doesn't exist -- just skip the syntax check
try:
import re
except ImportError:
_re = 0
else:
_re = re
sign = ''
s = strip(str)
if s and s[0] in '+-':
sign = s[0]
s = s[1:]
if not s:
raise ValueError, 'non-float argument to string.atof'
while s[0] == '0' and len(s) > 1 and s[1] in digits: s = s[1:]
if _re and not _re.match('[0-9]*(\.[0-9]*)?([eE][-+]?[0-9]+)?$', s):
raise ValueError, 'non-float argument to string.atof'
try:
return float(eval(sign + s, _safe_env))
except SyntaxError:
raise ValueError, 'non-float argument to string.atof'
"""
if type(s) == _StringType:
return _float(s)
else:
raise TypeError('argument 1: expected string, %s found' %
type(s).__name__)
# Convert string to integer
def atoi(str, base=10):
"""atoi(s [,base]) -> int
def atoi(*args):
"""atoi(s [,base]) -> int
Return the integer represented by the string s in the given
base, which defaults to 10. The string s must consist of one
or more digits, possibly preceded by a sign. If base is 0, it
is chosen from the leading characters of s, 0 for octal, 0x or
0X for hexadecimal. If base is 16, a preceding 0x or 0X is
accepted.
Return the integer represented by the string s in the given
base, which defaults to 10. The string s must consist of one
or more digits, possibly preceded by a sign. If base is 0, it
is chosen from the leading characters of s, 0 for octal, 0x or
0X for hexadecimal. If base is 16, a preceding 0x or 0X is
accepted.
"""
try:
s = args[0]
except IndexError:
raise TypeError('function requires at least 1 argument: %d given' %
len(args))
# Don't catch type error resulting from too many arguments to int(). The
# error message isn't compatible but the error type is, and this function
# is complicated enough already.
if type(s) == _StringType:
return _apply(_int, args)
else:
raise TypeError('argument 1: expected string, %s found' %
type(s).__name__)
"""
if base != 10:
# We only get here if strop doesn't define atoi()
raise ValueError, "this string.atoi doesn't support base != 10"
sign = ''
s = strip(str)
if s and s[0] in '+-':
sign = s[0]
s = s[1:]
if not s:
raise ValueError, 'non-integer argument to string.atoi'
while s[0] == '0' and len(s) > 1: s = s[1:]
for c in s:
if c not in digits:
raise ValueError, 'non-integer argument to string.atoi'
return eval(sign + s, _safe_env)
# Convert string to long integer
def atol(str, base=10):
"""atol(s [,base]) -> long
def atol(*args):
"""atol(s [,base]) -> long
Return the long integer represented by the string s in the
given base, which defaults to 10. The string s must consist
of one or more digits, possibly preceded by a sign. If base
is 0, it is chosen from the leading characters of s, 0 for
octal, 0x or 0X for hexadecimal. If base is 16, a preceding
0x or 0X is accepted. A trailing L or l is not accepted,
unless base is 0.
Return the long integer represented by the string s in the
given base, which defaults to 10. The string s must consist
of one or more digits, possibly preceded by a sign. If base
is 0, it is chosen from the leading characters of s, 0 for
octal, 0x or 0X for hexadecimal. If base is 16, a preceding
0x or 0X is accepted. A trailing L or l is not accepted,
unless base is 0.
"""
try:
s = args[0]
except IndexError:
raise TypeError('function requires at least 1 argument: %d given' %
len(args))
# Don't catch type error resulting from too many arguments to long(). The
# error message isn't compatible but the error type is, and this function
# is complicated enough already.
if type(s) == _StringType:
return _apply(_long, args)
else:
raise TypeError('argument 1: expected string, %s found' %
type(s).__name__)
"""
if base != 10:
# We only get here if strop doesn't define atol()
raise ValueError, "this string.atol doesn't support base != 10"
sign = ''
s = strip(str)
if s and s[0] in '+-':
sign = s[0]
s = s[1:]
if not s:
raise ValueError, 'non-integer argument to string.atol'
while s[0] == '0' and len(s) > 1: s = s[1:]
for c in s:
if c not in digits:
raise ValueError, 'non-integer argument to string.atol'
return eval(sign + s + 'L', _safe_env)
# Left-justify a string
def ljust(s, width):
"""ljust(s, width) -> string
"""ljust(s, width) -> string
Return a left-justified version of s, in a field of the
specified width, padded with spaces as needed. The string is
never truncated.
Return a left-justified version of s, in a field of the
specified width, padded with spaces as needed. The string is
never truncated.
"""
n = width - len(s)
if n <= 0: return s
return s + ' '*n
"""
n = width - len(s)
if n <= 0: return s
return s + ' '*n
# Right-justify a string
def rjust(s, width):
"""rjust(s, width) -> string
"""rjust(s, width) -> string
Return a right-justified version of s, in a field of the
specified width, padded with spaces as needed. The string is
never truncated.
Return a right-justified version of s, in a field of the
specified width, padded with spaces as needed. The string is
never truncated.
"""
n = width - len(s)
if n <= 0: return s
return ' '*n + s
"""
n = width - len(s)
if n <= 0: return s
return ' '*n + s
# Center a string
def center(s, width):
"""center(s, width) -> string
"""center(s, width) -> string
Return a center version of s, in a field of the specified
width. padded with spaces as needed. The string is never
truncated.
Return a center version of s, in a field of the specified
width. padded with spaces as needed. The string is never
truncated.
"""
n = width - len(s)
if n <= 0: return s
half = n/2
if n%2 and width%2:
# This ensures that center(center(s, i), j) = center(s, j)
half = half+1
return ' '*half + s + ' '*(n-half)
"""
n = width - len(s)
if n <= 0: return s
half = n/2
if n%2 and width%2:
# This ensures that center(center(s, i), j) = center(s, j)
half = half+1
return ' '*half + s + ' '*(n-half)
# Zero-fill a number, e.g., (12, 3) --> '012' and (-3, 3) --> '-03'
# Decadent feature: the argument may be a string or a number
# (Use of this is deprecated; it should be a string as with ljust c.s.)
def zfill(x, width):
"""zfill(x, width) -> string
"""zfill(x, width) -> string
Pad a numeric string x with zeros on the left, to fill a field
of the specified width. The string x is never truncated.
Pad a numeric string x with zeros on the left, to fill a field
of the specified width. The string x is never truncated.
"""
if type(x) == type(''): s = x
else: s = `x`
n = len(s)
if n >= width: return s
sign = ''
if s[0] in ('-', '+'):
sign, s = s[0], s[1:]
return sign + '0'*(width-n) + s
"""
if type(x) == type(''): s = x
else: s = `x`
n = len(s)
if n >= width: return s
sign = ''
if s[0] in ('-', '+'):
sign, s = s[0], s[1:]
return sign + '0'*(width-n) + s
# Expand tabs in a string.
# Doesn't take non-printing chars into account, but does understand \n.
def expandtabs(s, tabsize=8):
"""expandtabs(s [,tabsize]) -> string
"""expandtabs(s [,tabsize]) -> string
Return a copy of the string s with all tab characters replaced
by the appropriate number of spaces, depending on the current
column, and the tabsize (default 8).
Return a copy of the string s with all tab characters replaced
by the appropriate number of spaces, depending on the current
column, and the tabsize (default 8).
"""
res = line = ''
for c in s:
if c == '\t':
c = ' '*(tabsize - len(line)%tabsize)
line = line + c
if c == '\n':
res = res + line
line = ''
return res + line
"""
res = line = ''
for c in s:
if c == '\t':
c = ' '*(tabsize - len(line) % tabsize)
line = line + c
if c == '\n':
res = res + line
line = ''
return res + line
# Character translation through look-up table.
def translate(s, table, deletions=""):
"""translate(s,table [,deletechars]) -> string
"""translate(s,table [,deletechars]) -> string
Return a copy of the string s, where all characters occurring
in the optional argument deletechars are removed, and the
remaining characters have been mapped through the given
translation table, which must be a string of length 256.
Return a copy of the string s, where all characters occurring
in the optional argument deletechars are removed, and the
remaining characters have been mapped through the given
translation table, which must be a string of length 256.
"""
if type(table) != type('') or len(table) != 256:
raise TypeError, \
"translation table must be 256 characters long"
res = ""
for c in s:
if c not in deletions:
res = res + table[ord(c)]
return res
"""
return s.translate(table, deletions)
# Capitalize a string, e.g. "aBc dEf" -> "Abc def".
def capitalize(s):
"""capitalize(s) -> string
"""capitalize(s) -> string
Return a copy of the string s with only its first character
capitalized.
Return a copy of the string s with only its first character
capitalized.
"""
return upper(s[:1]) + lower(s[1:])
"""
return s.capitalize()
# Capitalize the words in a string, e.g. " aBc dEf " -> "Abc Def".
# See also regsub.capwords().
def capwords(s, sep=None):
"""capwords(s, [sep]) -> string
"""capwords(s, [sep]) -> string
Split the argument into words using split, capitalize each
word using capitalize, and join the capitalized words using
join. Note that this replaces runs of whitespace characters by
a single space.
Split the argument into words using split, capitalize each
word using capitalize, and join the capitalized words using
join. Note that this replaces runs of whitespace characters by
a single space.
"""
return join(map(capitalize, split(s, sep)), sep or ' ')
"""
return join(map(capitalize, s.split(sep)), sep or ' ')
# Construct a translation string
_idmapL = None
def maketrans(fromstr, tostr):
"""maketrans(frm, to) -> string
"""maketrans(frm, to) -> string
Return a translation table (a string of 256 bytes long)
suitable for use in string.translate. The strings frm and to
must be of the same length.
Return a translation table (a string of 256 bytes long)
suitable for use in string.translate. The strings frm and to
must be of the same length.
"""
if len(fromstr) != len(tostr):
raise ValueError, "maketrans arguments must have same length"
global _idmapL
if not _idmapL:
_idmapL = map(None, _idmap)
L = _idmapL[:]
fromstr = map(ord, fromstr)
for i in range(len(fromstr)):
L[fromstr[i]] = tostr[i]
return joinfields(L, "")
"""
if len(fromstr) != len(tostr):
raise ValueError, "maketrans arguments must have same length"
global _idmapL
if not _idmapL:
_idmapL = map(None, _idmap)
L = _idmapL[:]
fromstr = map(ord, fromstr)
for i in range(len(fromstr)):
L[fromstr[i]] = tostr[i]
return joinfields(L, "")
# Substring replacement (global)
def replace(str, old, new, maxsplit=0):
"""replace (str, old, new[, maxsplit]) -> string
def replace(s, old, new, maxsplit=0):
"""replace (str, old, new[, maxsplit]) -> string
Return a copy of string str with all occurrences of substring
old replaced by new. If the optional argument maxsplit is
given, only the first maxsplit occurrences are replaced.
Return a copy of string str with all occurrences of substring
old replaced by new. If the optional argument maxsplit is
given, only the first maxsplit occurrences are replaced.
"""
return joinfields(splitfields(str, old, maxsplit), new)
"""
return s.replace(old, new, maxsplit)
# XXX: transitional
#
# If string objects do not have methods, then we need to use the old string.py
# library, which uses strop for many more things than just the few outlined
# below.
try:
''.upper
except AttributeError:
from stringold import *
# Try importing optional built-in module "strop" -- if it exists,
# it redefines some string operations that are 100-1000 times faster.
# It also defines values for whitespace, lowercase and uppercase
# that match <ctype.h>'s definitions.
try:
from strop import *
letters = lowercase + uppercase
from strop import maketrans, lowercase, uppercase, whitespace
letters = lowercase + uppercase
except ImportError:
pass # Use the original, slow versions
pass # Use the original versions

View File

@ -53,123 +53,6 @@ null_error()
return NULL;
}
/* Copied with modifications from stropmodule.c: atoi, atof, atol */
static PyObject *
int_from_string(v)
PyObject *v;
{
char *s, *end;
long x;
char buffer[256]; /* For errors */
s = PyString_AS_STRING(v);
while (*s && isspace(Py_CHARMASK(*s)))
s++;
errno = 0;
x = PyOS_strtol(s, &end, 10);
if (end == s || !isdigit(end[-1]))
goto bad;
while (*end && isspace(Py_CHARMASK(*end)))
end++;
if (*end != '\0') {
bad:
sprintf(buffer, "invalid literal for int(): %.200s", s);
PyErr_SetString(PyExc_ValueError, buffer);
return NULL;
}
else if (end != PyString_AS_STRING(v) + PyString_GET_SIZE(v)) {
PyErr_SetString(PyExc_ValueError,
"null byte in argument for int()");
return NULL;
}
else if (errno != 0) {
sprintf(buffer, "int() literal too large: %.200s", s);
PyErr_SetString(PyExc_ValueError, buffer);
return NULL;
}
return PyInt_FromLong(x);
}
static PyObject *
long_from_string(v)
PyObject *v;
{
char *s, *end;
PyObject *x;
char buffer[256]; /* For errors */
s = PyString_AS_STRING(v);
while (*s && isspace(Py_CHARMASK(*s)))
s++;
x = PyLong_FromString(s, &end, 10);
if (x == NULL) {
if (PyErr_ExceptionMatches(PyExc_ValueError))
goto bad;
return NULL;
}
while (*end && isspace(Py_CHARMASK(*end)))
end++;
if (*end != '\0') {
bad:
sprintf(buffer, "invalid literal for long(): %.200s", s);
PyErr_SetString(PyExc_ValueError, buffer);
Py_XDECREF(x);
return NULL;
}
else if (end != PyString_AS_STRING(v) + PyString_GET_SIZE(v)) {
PyErr_SetString(PyExc_ValueError,
"null byte in argument for long()");
return NULL;
}
return x;
}
static PyObject *
float_from_string(v)
PyObject *v;
{
extern double strtod Py_PROTO((const char *, char **));
char *s, *last, *end;
double x;
char buffer[256]; /* For errors */
s = PyString_AS_STRING(v);
last = s + PyString_GET_SIZE(v);
while (*s && isspace(Py_CHARMASK(*s)))
s++;
if (s[0] == '\0') {
PyErr_SetString(PyExc_ValueError, "empty string for float()");
return NULL;
}
errno = 0;
PyFPE_START_PROTECT("float_from_string", return 0)
x = strtod(s, &end);
PyFPE_END_PROTECT(x)
/* Believe it or not, Solaris 2.6 can move end *beyond* the null
byte at the end of the string, when the input is inf(inity) */
if (end > last)
end = last;
while (*end && isspace(Py_CHARMASK(*end)))
end++;
if (*end != '\0') {
sprintf(buffer, "invalid literal for float(): %.200s", s);
PyErr_SetString(PyExc_ValueError, buffer);
return NULL;
}
else if (end != PyString_AS_STRING(v) + PyString_GET_SIZE(v)) {
PyErr_SetString(PyExc_ValueError,
"null byte in argument for float()");
return NULL;
}
else if (errno != 0) {
sprintf(buffer, "float() literal too large: %.200s", s);
PyErr_SetString(PyExc_ValueError, buffer);
return NULL;
}
return PyFloat_FromDouble(x);
}
/* Operations on any object */
int
@ -713,7 +596,7 @@ PyNumber_Int(o)
if (o == NULL)
return null_error();
if (PyString_Check(o))
return int_from_string(o);
return PyInt_FromString(PyString_AS_STRING(o), NULL, 10);
m = o->ob_type->tp_as_number;
if (m && m->nb_int)
return m->nb_int(o);
@ -721,6 +604,61 @@ PyNumber_Int(o)
return type_error("object can't be converted to int");
}
/* There are two C API functions for converting a string to a long,
* PyNumber_Long() and PyLong_FromString(). Both are used in builtin_long,
* reachable from Python with the built-in function long().
*
* The difference is this: PyNumber_Long will raise an exception when the
* string cannot be converted to a long. The most common situation is
* where a float string is passed in; this raises a ValueError.
* PyLong_FromString does not raise an exception; it silently truncates the
* float to an integer.
*
* You can see the different behavior from Python with the following:
*
* long('9.5')
* => ValueError: invalid literal for long(): 9.5
*
* long('9.5', 10)
* => 9L
*
* The first example ends up calling PyNumber_Long(), while the second one
* calls PyLong_FromString().
*/
static PyObject *
long_from_string(v)
PyObject *v;
{
char *s, *end;
PyObject *x;
char buffer[256]; /* For errors */
s = PyString_AS_STRING(v);
while (*s && isspace(Py_CHARMASK(*s)))
s++;
x = PyLong_FromString(s, &end, 10);
if (x == NULL) {
if (PyErr_ExceptionMatches(PyExc_ValueError))
goto bad;
return NULL;
}
while (*end && isspace(Py_CHARMASK(*end)))
end++;
if (*end != '\0') {
bad:
sprintf(buffer, "invalid literal for long(): %.200s", s);
PyErr_SetString(PyExc_ValueError, buffer);
Py_XDECREF(x);
return NULL;
}
else if (end != PyString_AS_STRING(v) + PyString_GET_SIZE(v)) {
PyErr_SetString(PyExc_ValueError,
"null byte in argument for long()");
return NULL;
}
return x;
}
PyObject *
PyNumber_Long(o)
PyObject *o;
@ -730,6 +668,10 @@ PyNumber_Long(o)
if (o == NULL)
return null_error();
if (PyString_Check(o))
/* need to do extra error checking that PyLong_FromString()
* doesn't do. In particular long('9.5') must raise an
* exception, not truncate the float.
*/
return long_from_string(o);
m = o->ob_type->tp_as_number;
if (m && m->nb_long)
@ -747,7 +689,7 @@ PyNumber_Float(o)
if (o == NULL)
return null_error();
if (PyString_Check(o))
return float_from_string(o);
return PyFloat_FromString(o, NULL);
m = o->ob_type->tp_as_number;
if (m && m->nb_float)
return m->nb_float(o);

View File

@ -149,6 +149,57 @@ PyFloat_FromDouble(fval)
return (PyObject *) op;
}
PyObject *
PyFloat_FromString(v, pend)
PyObject *v;
char **pend;
{
extern double strtod Py_PROTO((const char *, char **));
char *s, *last, *end;
double x;
char buffer[256]; /* For errors */
if (!PyString_Check(v))
return NULL;
s = PyString_AS_STRING(v);
last = s + PyString_GET_SIZE(v);
while (*s && isspace(Py_CHARMASK(*s)))
s++;
if (s[0] == '\0') {
PyErr_SetString(PyExc_ValueError, "empty string for float()");
return NULL;
}
errno = 0;
PyFPE_START_PROTECT("PyFloat_FromString", return 0)
x = strtod(s, &end);
PyFPE_END_PROTECT(x)
/* Believe it or not, Solaris 2.6 can move end *beyond* the null
byte at the end of the string, when the input is inf(inity) */
if (end > last)
end = last;
while (*end && isspace(Py_CHARMASK(*end)))
end++;
if (*end != '\0') {
sprintf(buffer, "invalid literal for float(): %.200s", s);
PyErr_SetString(PyExc_ValueError, buffer);
return NULL;
}
else if (end != PyString_AS_STRING(v) + PyString_GET_SIZE(v)) {
PyErr_SetString(PyExc_ValueError,
"null byte in argument for float()");
return NULL;
}
else if (errno != 0) {
sprintf(buffer, "float() literal too large: %.200s", s);
PyErr_SetString(PyExc_ValueError, buffer);
return NULL;
}
if (pend)
*pend = end;
return PyFloat_FromDouble(x);
}
static void
float_dealloc(op)
PyFloatObject *op;

View File

@ -32,6 +32,7 @@ PERFORMANCE OF THIS SOFTWARE.
/* Integer object implementation */
#include "Python.h"
#include <ctype.h>
#ifdef HAVE_LIMITS_H
#include <limits.h>
@ -218,6 +219,48 @@ PyInt_AsLong(op)
return val;
}
PyObject *
PyInt_FromString(s, pend, base)
char *s;
char **pend;
int base;
{
char *end;
long x;
char buffer[256]; /* For errors */
if ((base != 0 && base < 2) || base > 36) {
PyErr_SetString(PyExc_ValueError, "invalid base for int()");
return NULL;
}
while (*s && isspace(Py_CHARMASK(*s)))
s++;
errno = 0;
if (base == 0 && s[0] == '0')
x = (long) PyOS_strtoul(s, &end, base);
else
x = PyOS_strtol(s, &end, base);
if (end == s || !isalnum(end[-1]))
goto bad;
while (*end && isspace(Py_CHARMASK(*end)))
end++;
if (*end != '\0') {
bad:
sprintf(buffer, "invalid literal for int(): %.200s", s);
PyErr_SetString(PyExc_ValueError, buffer);
return NULL;
}
else if (errno != 0) {
sprintf(buffer, "int() literal too large: %.200s", s);
PyErr_SetString(PyExc_ValueError, buffer);
return NULL;
}
if (pend)
*pend = end;
return PyInt_FromLong(x);
}
/* Methods */
/* ARGSUSED */

File diff suppressed because it is too large Load Diff

View File

@ -811,24 +811,6 @@ The globals and locals are dictionaries, defaulting to the current\n\
globals and locals. If only globals is given, locals defaults to it.";
static PyObject *
builtin_float(self, args)
PyObject *self;
PyObject *args;
{
PyObject *v;
if (!PyArg_ParseTuple(args, "O:float", &v))
return NULL;
return PyNumber_Float(v);
}
static char float_doc[] =
"float(x) -> floating point number\n\
\n\
Convert a string or number to a floating point number, if possible.";
static PyObject *
builtin_getattr(self, args)
PyObject *self;
@ -1251,17 +1233,79 @@ builtin_int(self, args)
PyObject *args;
{
PyObject *v;
int base = -909; /* unlikely! */
if (!PyArg_ParseTuple(args, "O:int", &v))
if (!PyArg_ParseTuple(args, "O|i:int", &v, &base))
return NULL;
return PyNumber_Int(v);
if (base == -909)
return PyNumber_Int(v);
else if (!PyString_Check(v)) {
PyErr_SetString(PyExc_TypeError,
"can't convert non-string with explicit base");
return NULL;
}
return PyInt_FromString(PyString_AS_STRING(v), NULL, base);
}
static char int_doc[] =
"int(x) -> integer\n\
"int(x[, base]) -> integer\n\
\n\
Convert a string or number to an integer, if possible.\n\
A floating point argument will be truncated towards zero.";
Convert a string or number to an integer, if possible. A floating point\n\
argument will be truncated towards zero (this does not include a string\n\
representation of a floating point number!) When converting a string, use\n\
the optional base. It is an error to supply a base when converting a\n\
non-string.";
static PyObject *
builtin_long(self, args)
PyObject *self;
PyObject *args;
{
PyObject *v;
int base = -909; /* unlikely! */
if (!PyArg_ParseTuple(args, "O|i:long", &v, &base))
return NULL;
if (base == -909)
return PyNumber_Long(v);
else if (!PyString_Check(v)) {
PyErr_SetString(PyExc_TypeError,
"can't convert non-string with explicit base");
return NULL;
}
return PyLong_FromString(PyString_AS_STRING(v), NULL, base);
}
static char long_doc[] =
"long(x) -> long integer\n\
long(x, base) -> long integer\n\
\n\
Convert a string or number to a long integer, if possible. A floating\n\
point argument will be truncated towards zero (this does not include a\n\
string representation of a floating point number!) When converting a\n\
string, use the given base. It is an error to supply a base when\n\
converting a non-string.";
static PyObject *
builtin_float(self, args)
PyObject *self;
PyObject *args;
{
PyObject *v;
if (!PyArg_ParseTuple(args, "O:float", &v))
return NULL;
if (PyString_Check(v))
return PyFloat_FromString(v, NULL);
return PyNumber_Float(v);
}
static char float_doc[] =
"float(x) -> floating point number\n\
\n\
Convert a string or number to a floating point number, if possible.";
static PyObject *
@ -1351,25 +1395,6 @@ static char locals_doc[] =
Return the dictionary containing the current scope's local variables.";
static PyObject *
builtin_long(self, args)
PyObject *self;
PyObject *args;
{
PyObject *v;
if (!PyArg_ParseTuple(args, "O:long", &v))
return NULL;
return PyNumber_Long(v);
}
static char long_doc[] =
"long(x) -> long integer\n\
\n\
Convert a string or number to a long integer, if possible.\n\
A floating point argument will be truncated towards zero.";
static PyObject *
min_max(args, sign)
PyObject *args;