I'm trying to use an equation that I've generated using `sympy.Eq(func, var)`

in a lambda. It seems to be returning a list of 'Add' objects, which I'm not sure how to use. I tried typecasting to a`str`

before using `eval`

, and i tried `from sympy import I`

, which i think has something to do with the problem.

Here's the code, and the error message:

py solid.py -v y = (x-1.0)

(x-3.0)*2 1.0 3.0 -axis y --method disk

**Here is a running example:**

```
import sys
import argparse
import math
from scipy import integrate
from sympy import Symbol, Eq, solve, I
import numpy
import pylab
parser = argparse.ArgumentParser(description='Find the volume of the solid of rotation defined. Use * for multiplication and ** to raise a power. Bounds are set equal to the implicit variable. Trailing .0\'s must be used for constants, and parentheses must be escaped ( e.g. \(x-2\) ). Answers are accurate to 6 decimals')
parser.add_argument('var', choices='xy', help='x|y')
parser.add_argument('=', metavar='=', choices='=')
parser.add_argument('equation', help='continous function')
parser.add_argument('a', type=float, help='bound \'a\'')
parser.add_argument('b', type=float, help='bound \'b\'')
parser.add_argument('-axis', choices='xy', help='axis of revolution (default == x)')
parser.add_argument('-m', choices='ds', help='method (disk/shell)')
parser.add_argument('-g', action='store_true', help='show graph')
parser.add_argument('-v', action='store_true', help='verbose (for debugging)')
args = parser.parse_args()
y = Symbol('y')
x = Symbol('x')
def solve_for_implicit(func, var):
if var == 'x':
equation = Eq(eval(func), x)
func = solve(equation, y)
else:
equation = Eq(eval(func), y)
func = solve(equation, x)
return func
def volume(var, func, a, b, axis=None, method=None):
if axis == None: axis = 'x'
if method == 's': method = 'shell'
if method == 'd': method = 'disk'
if var == axis and axis == 'x':
if args.v: print 'x = y about x'
if not method == 'disk':
pass
else:
pass
elif var == axis and axis == 'y':
# SHELL METHOD
if args.v: print 'y = x about y'
if not method == 'disk':
# this is what should be used for y = x about y
if args.v: print 'using SHELL method'
func = eval('lambda x: ' + 'x*(' + func + ')')
integral = integrate.quad(func, a, b)
if args.v: print 'integral from', a, 'to', b, '=', integral[0]
answer = 2 * math.pi * integral[0]
if args.v: print '2*pi*', integral[0], '=', answer
else:
func = solve_for_implicit(func, var)
print func[0]
func = eval('lambda y: ' + '(' + str(func[0]) + ')**2')
integral = integrate.quad(func, a, b)
if args.v: print 'integral=', integral[0]
answer = math.pi * integral[0]
elif not var == axis and axis == 'y':
# DISK METHOD
if args.v: print 'x = y about y -- '
if not method == 'shell':
pass
else:
pass
elif not var == axis and axis == 'x':
# DISK
if args.v: print 'y = x about x --',
if not method == 'shell':
pass
else:
pass
return answer
print volume(args.var, args.equation, args.a, args.b, args.axis, args.m)
if args.g: graph(args.equation, args.a, args.b)
```

Traceback (most recent call last):

File "solid.py", line 136, in print volume(args.var, args.equation, args.a, args.b, args.axis, args.m) File "solid.py", line 75, in volume func = eval('lambda y: ' + '(' + func[0] + ')**2') TypeError: cannot concatenate 'str' and 'Add' objects

and when I try typecasting it to a str() first i get this:

File "solid.py", line 136, in print volume(args.var, args.equation, args.a, args.b, args.axis, args.m) File "solid.py", line 76, in volume integral = integrate.quad(func, a, b) File "/usr/lib/python2.6/dist-packages/scipy/integrate/quadpack.py", line 185, in quad retval = _quad(func,a,b,args,full_output,epsabs,epsrel,limit,points) File "/usr/lib/python2.6/dist-packages/scipy/integrate/quadpack.py", line 249, in _quad return _quadpack._qagse(func,a,b,args,full_output,epsabs,epsrel,limit) quadpack.error: Supplied function does not return a valid float.

also, `print func[0]`

gives:

2.33333333333333 + (0.296296296296298 - y/2 + (-0.0877914951989024 + (0.592592592592595 - y)

2/4)(1/2))(1/3)*(1/2 - I*3(1/2)/2) + 0.444444444444444/((1/2 - I*3*(1/2)/2)(0.296296296296298 - y/2 + (-0.0877914951989024 + (0.592592592592595 - y)2/4)(1/2))**(1/3))

thanks for your help everyone, sorry for not providing a complete script before.

`func`

? – Anycorn Dec 15 '10 at 7:00`lambda x: x**2`

– Nona Urbiz Dec 15 '10 at 7:07`func = lambda y: float(func[0])**2`

should do the job. – nils Dec 15 '10 at 7:20`sympy.Eq(func, var)`

– Nona Urbiz Dec 15 '10 at 7:28`sympy.sympify`

if that doesn't help I don't understand what you mean. – nils Dec 15 '10 at 7:37