def __init__(self, source_code=None, mode=None):
"""Constructor for SymPyExpression class"""
super().__init__()
if not (mode or source_code):
self._expr = []
elif mode:
if source_code:
if mode.lower() == 'f':
if lfortran:
self._expr = src_to_sympy(source_code)
else:
raise ImportError(
"LFortran is not installed, cannot parse Fortran code"
)
elif mode.lower() == 'c':
if cin:
self._expr = parse_c(source_code)
else:
raise ImportError(
"Clang is not installed, cannot parse C code")
else:
raise NotImplementedError(
'Parser for specified language is not implemented')
else:
raise ValueError('Source code not present')
else:
raise ValueError('Please specify a mode for conversion')
def convert_to_expr(self, src_code, mode):
"""Converts the given source code to sympy Expressions
Attributes
==========
src_code : String
the source code or filename of the source code that is to be
converted
mode: String
the mode to determine which parser is to be used according to
the language of the source code
f or F for Fortran
c or C for C/C++
Examples
========
>>> from sympy.parsing.sym_expr import SymPyExpression
>>> src3 = '''
... integer function f(a,b) result(r)
... integer, intent(in) :: a, b
... integer :: x
... r = a + b -x
... end function
... '''
>>> p = SymPyExpression()
>>> p.convert_to_expr(src3, 'f')
>>> p.return_expr()
[FunctionDefinition(integer, name=f, parameters=(Variable(a), Variable(b)), body=CodeBlock(
Declaration(Variable(r, type=integer, value=0)),
Declaration(Variable(x, type=integer, value=0)),
Assignment(Variable(r), a + b - x),
Return(Variable(r))
))]
"""
if mode.lower() == "f":
if lfortran:
self._expr = src_to_sympy(src_code)
else:
raise ImportError(
"LFortran is not installed, cannot parse Fortran code"
)
elif mode.lower() == "c":
if cin:
self._expr = parse_c(src_code)
else:
raise ImportError("Clang is not installed, cannot parse C code")
else:
raise NotImplementedError(
"Parser for specified language has not been implemented"
)
def __init__(self, source_code = None, mode = None):
"""Constructor for SymPyExpression class"""
super(SymPyExpression, self).__init__()
if not(mode or source_code):
self._expr = []
elif mode:
if source_code:
if mode.lower() == 'f':
self._expr = src_to_sympy(source_code)
#elif mode.lower() == 'c':
# self._expr = src_to_c(source_code)
else:
raise NotImplementedError(
'Parser for specified language is not implemented'
)
else:
raise ValueError('Source code not present')
else:
raise ValueError('Please specify a mode for conversion')