I heard that we can use the English words to express the number in Mathematica. Like using One hundred to express 100. Which function can do it?
4 Answers
A solution basically equivalent to dreeves's solution (but not available at the time of his answer) would be to call WolframAlpha[]
directly from Mathematica (this requires an internet connection). For example,
WolframAlpha["6 million 2 hundred and 12 thousand and fifty two",
{{"Input", 1}, "Plaintext"}]
returns the string
"6212052"
So we can construct the following function that returns the actual number
textToNumber[num_String] :=
Module[{in = WolframAlpha[num, {{"Input", 1}, "Plaintext"}]},
If[StringMatchQ[in, NumberString], ToExpression[in], $Failed]]
It also works with decimals and negative numbers, e.g., textToNumber["minus one point one"]
.
Note that we could ask for things other than "Plaintext"
output. The easiest way to find out what's available is to enter some number, eg,WolframAlpha["twelve"]
, and explore the options available when you press the ⨁ signs on the right of each "pod". It is also worth exploring the documentation, where you find useful output "formats" such as "MathematicaParse"
and "PodIDs"
.
We can also go in the other direction:
numberToText[num_Integer] := WolframAlpha[ToString[num],
{{"NumberName", 1}, "Plaintext"}]
I couldn't find the right incantations to get the spoken phrase form for nonintegers. If someone knows the right spell, or if WA gains this ability, please feel free to update this answer. It's a shame that SpokenString
does not have an option for reading numbers as their spoken phrases.

The problem with all the WA based solutions is that there's a limited number of calls to WA allowed, per day. So, it's not really a good automated method. I had a method I used for some application a while back, I'm going to see if I can dig it up. Commented Sep 9, 2011 at 13:56

@Eli: True, I never intended the solutions for more than occasional use. Is your method for going the easy way  numbers to text  or vice versa? Numbers to text can be solved with a dictionary and recursion. The reverse needs to be a lot more flexible, with some clever string patterns etc...– SimonCommented Sep 9, 2011 at 14:01
I see that Wolfram Alpha can do that, so here's a kludgy little function that sends the English string to Wolfram Alpha and parses the result:
w2n[s_String] := ToExpression[StringCases[
Import["http://www.wolframalpha.com/input/?i=" <> StringReplace[s, " ">"+"],
"String"],
RegularExpression["Hold\\[([^\\]]*)\\]"] > "$1"][[1]]]
Example:
w2n["two million six hundred sixtysix"]
> 2000666
Does Wolfram Alpha provide an actual API? That would be really great!
PS: They have one now but it's expensive: http://products.wolframalpha.com/api/
PPS: I notice that the wolframalpha results page changed a bit and my scraping no longer works. Some variant on that regular expression should work though.

I should probably do an actual url_encode instead of just replacing spaces with pluses, but for numbers in English that seems to suffice.– dreevesCommented Sep 9, 2009 at 21:50
This is the code:
IntegerName[78372112345]
This is the output:
78 billion 372 million 112 thousand 345
not available back in '09...
SemanticInterpretation["one hundred fifty thousand three hunded and six"]
or
Interpreter["SemanticNumber"]["one hundred fifty thousand three hunded and six"]
150306
( notice my spelling error didn't phase it..)
The two functions are not the same by the way,
SemanticInterpretation["six and forty two thousandths"]//N (* 6.042 *)
Interpreter["SemanticNumber"]["six and forty two thousandths"] (*fails*)