An easy way to achieve validation of expressions is to use Python's `eval`

method. It can be used to evaluate expressions just like the one you wrote. Python's syntax is easy enough to learn for simple expressions and english-like. Your expression example is translated to:

```
(value >= 1 and value <= 3) or (value >= 10 and value <= 12)
```

Code evaluation provided by users might pose a security risk though as certain functions could be used to be executed on the host machine (such as the `open`

function, to open a file). But the `eval`

function takes extra arguments to restrict the allowed functions. Hence you can create a safe evaluation environment.

```
# Import math functions, and we'll use a few of them to create
# a list of safe functions from the math module to be used by eval.
from math import *
# A user-defined method won't be reachable in the evaluation, as long
# as we provide the list of allowed functions and vars to eval.
def dangerous_function(filename):
print open(filename).read()
# We're building the list of safe functions to use by eval:
safe_list = ['math','acos', 'asin', 'atan', 'atan2', 'ceil', 'cos', 'cosh', 'degrees', 'e', 'exp', 'fabs', 'floor', 'fmod', 'frexp', 'hypot', 'ldexp', 'log', 'log10', 'modf', 'pi', 'pow', 'radians', 'sin', 'sinh', 'sqrt', 'tan', 'tanh']
safe_dict = dict([ (k, locals().get(k, None)) for k in safe_list ])
# Let's test the eval method with your example:
exp = "(value >= 1 and value <= 3) or (value >= 10 and value <= 12)"
safe_dict['value'] = 2
print "expression evaluation: ", eval(exp, {"__builtins__":None},safe_dict)
-> expression evaluation: True
# Test with a forbidden method, such as 'abs'
exp = raw_input("type an expression: ")
-> type an expression: (abs(-2) >= 1 and abs(-2) <= 3) or (abs(-2) >= 10 and abs(-2) <= 12)
print "expression evaluation: ", eval(exp, {"__builtins__":None},safe_dict)
-> expression evaluation:
-> Traceback (most recent call last):
-> File "<stdin>", line 1, in <module>
-> File "<string>", line 1, in <module>
-> NameError: name 'abs' is not defined
# Let's test it again, without any extra parameters to the eval method
# that would prevent its execution
print "expression evaluation: ", eval(exp)
-> expression evaluation: True
# Works fine without the safe dict! So the restrictions were active
# in the previous example..
# is odd?
def isodd(x): return bool(x & 1)
safe_dict['isodd'] = isodd
print "expression evaluation: ", eval("isodd(7)", {"__builtins__":None},safe_dict)
-> expression evaluation: True
print "expression evaluation: ", eval("isodd(42)", {"__builtins__":None},safe_dict)
-> expression evaluation: False
# A bit more complex this time, let's ask the user a function:
user_func = raw_input("type a function: y = ")
-> type a function: y = exp(x)
# Let's test it:
for x in range(1,10):
# add x in the safe dict
safe_dict['x']=x
print "x = ", x , ", y = ", eval(user_func,{"__builtins__":None},safe_dict)
-> x = 1 , y = 2.71828182846
-> x = 2 , y = 7.38905609893
-> x = 3 , y = 20.0855369232
-> x = 4 , y = 54.5981500331
-> x = 5 , y = 148.413159103
-> x = 6 , y = 403.428793493
-> x = 7 , y = 1096.63315843
-> x = 8 , y = 2980.95798704
-> x = 9 , y = 8103.08392758
```

So you can control the allowed functions that should be used by the `eval`

method, and have a sandbox environment that can evaluate expressions.

This is what we used in a previous project I worked in. We used Python expressions in custom Eclipse IDE plug-ins, using Jython to run in the JVM. **You could do the same with IronPython to run in the CLR.**

The examples I used in part inspired / copied from the Lybniz project explanation on how to run a safe Python eval environment. Read it for more details!