Traktor/myenv/Lib/site-packages/sympy/parsing/ast_parser.py

"""
This module implements the functionality to take any Python expression as a
string and fix all numbers and other things before evaluating it,
thus

1/2

returns

Integer(1)/Integer(2)

We use the ast module for this. It is well documented at docs.python.org.

Some tips to understand how this works: use dump() to get a nice
representation of any node. Then write a string of what you want to get,
e.g. "Integer(1)", parse it, dump it and you'll see that you need to do
"Call(Name('Integer', Load()), [node], [], None, None)". You do not need
to bother with lineno and col_offset, just call fix_missing_locations()
before returning the node.
"""

from sympy.core.basic import Basic
from sympy.core.sympify import SympifyError

from ast import parse, NodeTransformer, Call, Name, Load, \
    fix_missing_locations, Str, Tuple

class Transform(NodeTransformer):

    def __init__(self, local_dict, global_dict):
        NodeTransformer.__init__(self)
        self.local_dict = local_dict
        self.global_dict = global_dict

    def visit_Constant(self, node):
        if isinstance(node.value, int):
            return fix_missing_locations(Call(func=Name('Integer', Load()),
                    args=[node], keywords=[]))
        elif isinstance(node.value, float):
            return fix_missing_locations(Call(func=Name('Float', Load()),
                    args=[node], keywords=[]))
        return node

    def visit_Name(self, node):
        if node.id in self.local_dict:
            return node
        elif node.id in self.global_dict:
            name_obj = self.global_dict[node.id]

            if isinstance(name_obj, (Basic, type)) or callable(name_obj):
                return node
        elif node.id in ['True', 'False']:
            return node
        return fix_missing_locations(Call(func=Name('Symbol', Load()),
                args=[Str(node.id)], keywords=[]))

    def visit_Lambda(self, node):
        args = [self.visit(arg) for arg in node.args.args]
        body = self.visit(node.body)
        n = Call(func=Name('Lambda', Load()),
            args=[Tuple(args, Load()), body], keywords=[])
        return fix_missing_locations(n)

def parse_expr(s, local_dict):
    """
    Converts the string "s" to a SymPy expression, in local_dict.

    It converts all numbers to Integers before feeding it to Python and
    automatically creates Symbols.
    """
    global_dict = {}
    exec('from sympy import *', global_dict)
    try:
        a = parse(s.strip(), mode="eval")
    except SyntaxError:
        raise SympifyError("Cannot parse %s." % repr(s))
    a = Transform(local_dict, global_dict).visit(a)
    e = compile(a, "<string>", "eval")
    return eval(e, global_dict, local_dict)
losowanie zdjec 2024-05-26 05:12:46 +02:00			`"""`
			`This module implements the functionality to take any Python expression as a`
			`string and fix all numbers and other things before evaluating it,`
			`thus`

			`1/2`

			`returns`

			`Integer(1)/Integer(2)`

			`We use the ast module for this. It is well documented at docs.python.org.`

			`Some tips to understand how this works: use dump() to get a nice`
			`representation of any node. Then write a string of what you want to get,`
			`e.g. "Integer(1)", parse it, dump it and you'll see that you need to do`
			`"Call(Name('Integer', Load()), [node], [], None, None)". You do not need`
			`to bother with lineno and col_offset, just call fix_missing_locations()`
			`before returning the node.`
			`"""`

			`from sympy.core.basic import Basic`
			`from sympy.core.sympify import SympifyError`

			`from ast import parse, NodeTransformer, Call, Name, Load, \`
			`fix_missing_locations, Str, Tuple`

			`class Transform(NodeTransformer):`

			`def __init__(self, local_dict, global_dict):`
			`NodeTransformer.__init__(self)`
			`self.local_dict = local_dict`
			`self.global_dict = global_dict`

			`def visit_Constant(self, node):`
			`if isinstance(node.value, int):`
			`return fix_missing_locations(Call(func=Name('Integer', Load()),`
			`args=[node], keywords=[]))`
			`elif isinstance(node.value, float):`
			`return fix_missing_locations(Call(func=Name('Float', Load()),`
			`args=[node], keywords=[]))`
			`return node`

			`def visit_Name(self, node):`
			`if node.id in self.local_dict:`
			`return node`
			`elif node.id in self.global_dict:`
			`name_obj = self.global_dict[node.id]`

			`if isinstance(name_obj, (Basic, type)) or callable(name_obj):`
			`return node`
			`elif node.id in ['True', 'False']:`
			`return node`
			`return fix_missing_locations(Call(func=Name('Symbol', Load()),`
			`args=[Str(node.id)], keywords=[]))`

			`def visit_Lambda(self, node):`
			`args = [self.visit(arg) for arg in node.args.args]`
			`body = self.visit(node.body)`
			`n = Call(func=Name('Lambda', Load()),`
			`args=[Tuple(args, Load()), body], keywords=[])`
			`return fix_missing_locations(n)`

			`def parse_expr(s, local_dict):`
			`"""`
			`Converts the string "s" to a SymPy expression, in local_dict.`

			`It converts all numbers to Integers before feeding it to Python and`
			`automatically creates Symbols.`
			`"""`
			`global_dict = {}`
			`exec('from sympy import *', global_dict)`
			`try:`
			`a = parse(s.strip(), mode="eval")`
			`except SyntaxError:`
			`raise SympifyError("Cannot parse %s." % repr(s))`
			`a = Transform(local_dict, global_dict).visit(a)`
			`e = compile(a, "<string>", "eval")`
			`return eval(e, global_dict, local_dict)`