Traktor/myenv/Lib/site-packages/sympy/printing/lambdarepr.py

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2024-05-26 05:12:46 +02:00
from .pycode import (
PythonCodePrinter,
MpmathPrinter,
)
from .numpy import NumPyPrinter # NumPyPrinter is imported for backward compatibility
from sympy.core.sorting import default_sort_key
__all__ = [
'PythonCodePrinter',
'MpmathPrinter', # MpmathPrinter is published for backward compatibility
'NumPyPrinter',
'LambdaPrinter',
'NumPyPrinter',
'IntervalPrinter',
'lambdarepr',
]
class LambdaPrinter(PythonCodePrinter):
"""
This printer converts expressions into strings that can be used by
lambdify.
"""
printmethod = "_lambdacode"
def _print_And(self, expr):
result = ['(']
for arg in sorted(expr.args, key=default_sort_key):
result.extend(['(', self._print(arg), ')'])
result.append(' and ')
result = result[:-1]
result.append(')')
return ''.join(result)
def _print_Or(self, expr):
result = ['(']
for arg in sorted(expr.args, key=default_sort_key):
result.extend(['(', self._print(arg), ')'])
result.append(' or ')
result = result[:-1]
result.append(')')
return ''.join(result)
def _print_Not(self, expr):
result = ['(', 'not (', self._print(expr.args[0]), '))']
return ''.join(result)
def _print_BooleanTrue(self, expr):
return "True"
def _print_BooleanFalse(self, expr):
return "False"
def _print_ITE(self, expr):
result = [
'((', self._print(expr.args[1]),
') if (', self._print(expr.args[0]),
') else (', self._print(expr.args[2]), '))'
]
return ''.join(result)
def _print_NumberSymbol(self, expr):
return str(expr)
def _print_Pow(self, expr, **kwargs):
# XXX Temporary workaround. Should Python math printer be
# isolated from PythonCodePrinter?
return super(PythonCodePrinter, self)._print_Pow(expr, **kwargs)
# numexpr works by altering the string passed to numexpr.evaluate
# rather than by populating a namespace. Thus a special printer...
class NumExprPrinter(LambdaPrinter):
# key, value pairs correspond to SymPy name and numexpr name
# functions not appearing in this dict will raise a TypeError
printmethod = "_numexprcode"
_numexpr_functions = {
'sin' : 'sin',
'cos' : 'cos',
'tan' : 'tan',
'asin': 'arcsin',
'acos': 'arccos',
'atan': 'arctan',
'atan2' : 'arctan2',
'sinh' : 'sinh',
'cosh' : 'cosh',
'tanh' : 'tanh',
'asinh': 'arcsinh',
'acosh': 'arccosh',
'atanh': 'arctanh',
'ln' : 'log',
'log': 'log',
'exp': 'exp',
'sqrt' : 'sqrt',
'Abs' : 'abs',
'conjugate' : 'conj',
'im' : 'imag',
're' : 'real',
'where' : 'where',
'complex' : 'complex',
'contains' : 'contains',
}
module = 'numexpr'
def _print_ImaginaryUnit(self, expr):
return '1j'
def _print_seq(self, seq, delimiter=', '):
# simplified _print_seq taken from pretty.py
s = [self._print(item) for item in seq]
if s:
return delimiter.join(s)
else:
return ""
def _print_Function(self, e):
func_name = e.func.__name__
nstr = self._numexpr_functions.get(func_name, None)
if nstr is None:
# check for implemented_function
if hasattr(e, '_imp_'):
return "(%s)" % self._print(e._imp_(*e.args))
else:
raise TypeError("numexpr does not support function '%s'" %
func_name)
return "%s(%s)" % (nstr, self._print_seq(e.args))
def _print_Piecewise(self, expr):
"Piecewise function printer"
exprs = [self._print(arg.expr) for arg in expr.args]
conds = [self._print(arg.cond) for arg in expr.args]
# If [default_value, True] is a (expr, cond) sequence in a Piecewise object
# it will behave the same as passing the 'default' kwarg to select()
# *as long as* it is the last element in expr.args.
# If this is not the case, it may be triggered prematurely.
ans = []
parenthesis_count = 0
is_last_cond_True = False
for cond, expr in zip(conds, exprs):
if cond == 'True':
ans.append(expr)
is_last_cond_True = True
break
else:
ans.append('where(%s, %s, ' % (cond, expr))
parenthesis_count += 1
if not is_last_cond_True:
# See https://github.com/pydata/numexpr/issues/298
#
# simplest way to put a nan but raises
# 'RuntimeWarning: invalid value encountered in log'
#
# There are other ways to do this such as
#
# >>> import numexpr as ne
# >>> nan = float('nan')
# >>> ne.evaluate('where(x < 0, -1, nan)', {'x': [-1, 2, 3], 'nan':nan})
# array([-1., nan, nan])
#
# That needs to be handled in the lambdified function though rather
# than here in the printer.
ans.append('log(-1)')
return ''.join(ans) + ')' * parenthesis_count
def _print_ITE(self, expr):
from sympy.functions.elementary.piecewise import Piecewise
return self._print(expr.rewrite(Piecewise))
def blacklisted(self, expr):
raise TypeError("numexpr cannot be used with %s" %
expr.__class__.__name__)
# blacklist all Matrix printing
_print_SparseRepMatrix = \
_print_MutableSparseMatrix = \
_print_ImmutableSparseMatrix = \
_print_Matrix = \
_print_DenseMatrix = \
_print_MutableDenseMatrix = \
_print_ImmutableMatrix = \
_print_ImmutableDenseMatrix = \
blacklisted
# blacklist some Python expressions
_print_list = \
_print_tuple = \
_print_Tuple = \
_print_dict = \
_print_Dict = \
blacklisted
def _print_NumExprEvaluate(self, expr):
evaluate = self._module_format(self.module +".evaluate")
return "%s('%s', truediv=True)" % (evaluate, self._print(expr.expr))
def doprint(self, expr):
from sympy.codegen.ast import CodegenAST
from sympy.codegen.pynodes import NumExprEvaluate
if not isinstance(expr, CodegenAST):
expr = NumExprEvaluate(expr)
return super().doprint(expr)
def _print_Return(self, expr):
from sympy.codegen.pynodes import NumExprEvaluate
r, = expr.args
if not isinstance(r, NumExprEvaluate):
expr = expr.func(NumExprEvaluate(r))
return super()._print_Return(expr)
def _print_Assignment(self, expr):
from sympy.codegen.pynodes import NumExprEvaluate
lhs, rhs, *args = expr.args
if not isinstance(rhs, NumExprEvaluate):
expr = expr.func(lhs, NumExprEvaluate(rhs), *args)
return super()._print_Assignment(expr)
def _print_CodeBlock(self, expr):
from sympy.codegen.ast import CodegenAST
from sympy.codegen.pynodes import NumExprEvaluate
args = [ arg if isinstance(arg, CodegenAST) else NumExprEvaluate(arg) for arg in expr.args ]
return super()._print_CodeBlock(self, expr.func(*args))
class IntervalPrinter(MpmathPrinter, LambdaPrinter):
"""Use ``lambda`` printer but print numbers as ``mpi`` intervals. """
def _print_Integer(self, expr):
return "mpi('%s')" % super(PythonCodePrinter, self)._print_Integer(expr)
def _print_Rational(self, expr):
return "mpi('%s')" % super(PythonCodePrinter, self)._print_Rational(expr)
def _print_Half(self, expr):
return "mpi('%s')" % super(PythonCodePrinter, self)._print_Rational(expr)
def _print_Pow(self, expr):
return super(MpmathPrinter, self)._print_Pow(expr, rational=True)
for k in NumExprPrinter._numexpr_functions:
setattr(NumExprPrinter, '_print_%s' % k, NumExprPrinter._print_Function)
def lambdarepr(expr, **settings):
"""
Returns a string usable for lambdifying.
"""
return LambdaPrinter(settings).doprint(expr)