280 lines
8.7 KiB
Python
280 lines
8.7 KiB
Python
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from sympy.printing import pycode, ccode, fcode
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from sympy.external import import_module
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from sympy.utilities.decorator import doctest_depends_on
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lfortran = import_module('lfortran')
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cin = import_module('clang.cindex', import_kwargs = {'fromlist': ['cindex']})
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if lfortran:
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from sympy.parsing.fortran.fortran_parser import src_to_sympy
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if cin:
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from sympy.parsing.c.c_parser import parse_c
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@doctest_depends_on(modules=['lfortran', 'clang.cindex'])
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class SymPyExpression: # type: ignore
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"""Class to store and handle SymPy expressions
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This class will hold SymPy Expressions and handle the API for the
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conversion to and from different languages.
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It works with the C and the Fortran Parser to generate SymPy expressions
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which are stored here and which can be converted to multiple language's
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source code.
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Notes
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=====
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The module and its API are currently under development and experimental
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and can be changed during development.
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The Fortran parser does not support numeric assignments, so all the
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variables have been Initialized to zero.
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The module also depends on external dependencies:
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- LFortran which is required to use the Fortran parser
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- Clang which is required for the C parser
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Examples
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========
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Example of parsing C code:
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>>> from sympy.parsing.sym_expr import SymPyExpression
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>>> src = '''
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... int a,b;
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... float c = 2, d =4;
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... '''
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>>> a = SymPyExpression(src, 'c')
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>>> a.return_expr()
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[Declaration(Variable(a, type=intc)),
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Declaration(Variable(b, type=intc)),
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Declaration(Variable(c, type=float32, value=2.0)),
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Declaration(Variable(d, type=float32, value=4.0))]
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An example of variable definition:
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>>> from sympy.parsing.sym_expr import SymPyExpression
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>>> src2 = '''
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... integer :: a, b, c, d
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... real :: p, q, r, s
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... '''
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>>> p = SymPyExpression()
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>>> p.convert_to_expr(src2, 'f')
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>>> p.convert_to_c()
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['int a = 0', 'int b = 0', 'int c = 0', 'int d = 0', 'double p = 0.0', 'double q = 0.0', 'double r = 0.0', 'double s = 0.0']
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An example of Assignment:
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>>> from sympy.parsing.sym_expr import SymPyExpression
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>>> src3 = '''
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... integer :: a, b, c, d, e
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... d = a + b - c
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... e = b * d + c * e / a
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... '''
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>>> p = SymPyExpression(src3, 'f')
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>>> p.convert_to_python()
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['a = 0', 'b = 0', 'c = 0', 'd = 0', 'e = 0', 'd = a + b - c', 'e = b*d + c*e/a']
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An example of function definition:
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>>> from sympy.parsing.sym_expr import SymPyExpression
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>>> src = '''
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... integer function f(a,b)
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... integer, intent(in) :: a, b
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... integer :: r
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... end function
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... '''
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>>> a = SymPyExpression(src, 'f')
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>>> a.convert_to_python()
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['def f(a, b):\\n f = 0\\n r = 0\\n return f']
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"""
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def __init__(self, source_code = None, mode = None):
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"""Constructor for SymPyExpression class"""
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super().__init__()
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if not(mode or source_code):
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self._expr = []
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elif mode:
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if source_code:
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if mode.lower() == 'f':
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if lfortran:
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self._expr = src_to_sympy(source_code)
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else:
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raise ImportError("LFortran is not installed, cannot parse Fortran code")
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elif mode.lower() == 'c':
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if cin:
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self._expr = parse_c(source_code)
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else:
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raise ImportError("Clang is not installed, cannot parse C code")
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else:
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raise NotImplementedError(
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'Parser for specified language is not implemented'
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)
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else:
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raise ValueError('Source code not present')
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else:
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raise ValueError('Please specify a mode for conversion')
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def convert_to_expr(self, src_code, mode):
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"""Converts the given source code to SymPy Expressions
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Attributes
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==========
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src_code : String
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the source code or filename of the source code that is to be
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converted
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mode: String
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the mode to determine which parser is to be used according to
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the language of the source code
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f or F for Fortran
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c or C for C/C++
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Examples
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========
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>>> from sympy.parsing.sym_expr import SymPyExpression
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>>> src3 = '''
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... integer function f(a,b) result(r)
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... integer, intent(in) :: a, b
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... integer :: x
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... r = a + b -x
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... end function
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... '''
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>>> p = SymPyExpression()
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>>> p.convert_to_expr(src3, 'f')
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>>> p.return_expr()
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[FunctionDefinition(integer, name=f, parameters=(Variable(a), Variable(b)), body=CodeBlock(
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Declaration(Variable(r, type=integer, value=0)),
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Declaration(Variable(x, type=integer, value=0)),
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Assignment(Variable(r), a + b - x),
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Return(Variable(r))
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))]
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"""
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if mode.lower() == 'f':
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if lfortran:
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self._expr = src_to_sympy(src_code)
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else:
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raise ImportError("LFortran is not installed, cannot parse Fortran code")
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elif mode.lower() == 'c':
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if cin:
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self._expr = parse_c(src_code)
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else:
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raise ImportError("Clang is not installed, cannot parse C code")
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else:
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raise NotImplementedError(
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"Parser for specified language has not been implemented"
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)
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def convert_to_python(self):
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"""Returns a list with Python code for the SymPy expressions
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Examples
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========
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>>> from sympy.parsing.sym_expr import SymPyExpression
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>>> src2 = '''
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... integer :: a, b, c, d
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... real :: p, q, r, s
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... c = a/b
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... d = c/a
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... s = p/q
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... r = q/p
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... '''
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>>> p = SymPyExpression(src2, 'f')
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>>> p.convert_to_python()
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['a = 0', 'b = 0', 'c = 0', 'd = 0', 'p = 0.0', 'q = 0.0', 'r = 0.0', 's = 0.0', 'c = a/b', 'd = c/a', 's = p/q', 'r = q/p']
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"""
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self._pycode = []
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for iter in self._expr:
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self._pycode.append(pycode(iter))
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return self._pycode
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def convert_to_c(self):
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"""Returns a list with the c source code for the SymPy expressions
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Examples
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========
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>>> from sympy.parsing.sym_expr import SymPyExpression
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>>> src2 = '''
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... integer :: a, b, c, d
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... real :: p, q, r, s
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... c = a/b
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... d = c/a
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... s = p/q
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... r = q/p
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... '''
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>>> p = SymPyExpression()
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>>> p.convert_to_expr(src2, 'f')
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>>> p.convert_to_c()
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['int a = 0', 'int b = 0', 'int c = 0', 'int d = 0', 'double p = 0.0', 'double q = 0.0', 'double r = 0.0', 'double s = 0.0', 'c = a/b;', 'd = c/a;', 's = p/q;', 'r = q/p;']
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"""
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self._ccode = []
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for iter in self._expr:
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self._ccode.append(ccode(iter))
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return self._ccode
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def convert_to_fortran(self):
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"""Returns a list with the fortran source code for the SymPy expressions
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Examples
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========
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>>> from sympy.parsing.sym_expr import SymPyExpression
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>>> src2 = '''
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... integer :: a, b, c, d
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... real :: p, q, r, s
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... c = a/b
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... d = c/a
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... s = p/q
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... r = q/p
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... '''
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>>> p = SymPyExpression(src2, 'f')
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>>> p.convert_to_fortran()
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[' integer*4 a', ' integer*4 b', ' integer*4 c', ' integer*4 d', ' real*8 p', ' real*8 q', ' real*8 r', ' real*8 s', ' c = a/b', ' d = c/a', ' s = p/q', ' r = q/p']
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"""
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self._fcode = []
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for iter in self._expr:
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self._fcode.append(fcode(iter))
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return self._fcode
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def return_expr(self):
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"""Returns the expression list
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Examples
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========
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>>> from sympy.parsing.sym_expr import SymPyExpression
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>>> src3 = '''
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... integer function f(a,b)
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... integer, intent(in) :: a, b
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... integer :: r
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... r = a+b
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... f = r
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... end function
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... '''
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>>> p = SymPyExpression()
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>>> p.convert_to_expr(src3, 'f')
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>>> p.return_expr()
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[FunctionDefinition(integer, name=f, parameters=(Variable(a), Variable(b)), body=CodeBlock(
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Declaration(Variable(f, type=integer, value=0)),
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Declaration(Variable(r, type=integer, value=0)),
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Assignment(Variable(f), Variable(r)),
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Return(Variable(f))
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))]
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"""
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return self._expr
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