# Python equivalent to C++ strtod

I am working on converting parts of a C++ program to Python, but I have some trouble replacing the C++ function strtod. The strings I'm working on consists of simple mathmatical-ish equations, such as "KM/1000.0". The problem is that the both constants and numbers are mixed and I'm therefore unable to use float().

How can a Python function be written to simulate C++ strtod which returns both the converted number and the position of the next character?

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Can't you just split up the string beforehand? – Hubro Sep 27 '11 at 6:16
Do you need to parse exponential notation, too? – Tim Pietzcker Sep 27 '11 at 6:16
Here is the c code from Python's source for this, if you want to re-implement -- svn.python.org/projects/python/trunk/Python/strtod.c – agf Sep 27 '11 at 6:55

I'm not aware of any existing functions that would do that.

However, it's pretty easy to write one using regular expressions:

``````import re

# returns (float,endpos)
def strtod(s, pos):
m = re.match(r'[+-]?\d*[.]?\d*(?:[eE][+-]?\d+)?', s[pos:])
if m.group(0) == '': raise ValueError('bad float: %s' % s[pos:])
return float(m.group(0)), pos + m.end()

print strtod('(a+2.0)/1e-1', 3)
print strtod('(a+2.0)/1e-1', 8)
``````

A better overall approach might be to build a lexical scanner that would tokenize the expression first, and then work with a sequence of tokens rather than directly with the string (or indeed go the whole hog and build a yacc-style parser).

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Regular expression strikes again! Thank you, works perfectly. – Waws Sep 27 '11 at 7:11

parse the number yourself.

a recursive-descent parser is very easy for this kind of input. first write a grammar:

``````float ::= ipart ('.' fpart)* ('e' exp)*
ipart ::= digit+
fpart ::= digit+
exp   ::= ('+'|'-') digit+
digit = ['0'|'1'|'2'|'3'|'4'|'5'|'6'|'7'|'8'|'9']
``````

now converting this grammar to a function should be straightforward...

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I'd use a regular expression for this:

``````import re
mystring = "1.3 times 456.789 equals 593.8257 (or 5.93E2)"
def findfloats(s):
regex = re.compile(r"[+-]?\b\d+(?:\.\d+)?(?:e[+-]?\d+)?\b", re.I)
for match in regex.finditer(mystring):
yield (match.group(), match.start(), match.end())
``````

This finds all floating point numbers in the string and returns them together with their positions.

``````>>> for item in findfloats(mystring):
...     print(item)
...
('1.3', 0, 3)
('456.789', 10, 17)
('593.8257', 25, 33)
('5.93E2', 38, 44)
``````
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what about `.1`? – J.F. Sebastian Sep 27 '11 at 6:27
I can think of a bunch of valid floats that wouldn't get picked up. – NPE Sep 27 '11 at 6:27
The regex assumes an integer part. Everything else is optional. If there is a decimal point, a fractional part is required. So `.1` and `1.` won't be picked up. Of course it's trivial to modify the regex if necessary. – Tim Pietzcker Sep 27 '11 at 6:33