How to use the chempy.util._expr.Expr function in chempy

To help you get started, we’ve selected a few chempy examples, based on popular ways it is used in public projects.

Secure your code as it's written. Use Snyk Code to scan source code in minutes - no build needed - and fix issues immediately.

bjodah / chempy / chempy / util / _expr.py View on Github

self.__checks()
        arg, = self.args
        return self.__class__([_DivExpr([arg, _implicit_conversion(other)])])

    def __rtruediv__(self, other):
        self.__checks()
        arg, = self.args
        return self.__class__([_DivExpr([_implicit_conversion(other), arg])])

    @classmethod
    def from_callback(cls, callback, attr='__call__', **kwargs):
        Wrapper = super().from_callback(callback, attr=attr, **kwargs)
        return lambda *args, **kw: cls(Wrapper(*args, **kw))


class _NegExpr(Expr):

    def _str(self, *args, **kwargs):
        return "-%s" % args[0]._str(*args, **kwargs)

    def __repr__(self):
        return super(_NegExpr, self)._str(repr)

    def __call__(self, variables, backend=math, **kwargs):
        arg0, = self.all_args(variables, backend=backend, **kwargs)
        return -arg0

    def rate_coeff(self, *args, **kwargs):   # &lt;--- feature creep into base-class...
        return -self.args[0].rate_coeff(*args, **kwargs),


class _BinaryExpr(Expr):

bjodah / chempy / chempy / util / _expr.py View on Github

def __pow__(self, other):
        return _PowExpr([self, _implicit_conversion(other)])

    def __rpow__(self, other):
        return _PowExpr([_implicit_conversion(other), self])


class _NegExpr(Expr):

    def __call__(self, variables, backend=math, **kwargs):
        arg0, = self.all_args(variables, backend=backend, **kwargs)
        return -arg0


class _BinaryExpr(Expr):
    _op = None

    def _str(self, *args, **kwargs):
        return ("({0} %s {1})" % self._op_str).format(*[arg._str(*args, **kwargs) for arg in self.args])

    def __call__(self, variables, backend=math, **kwargs):
        arg0, arg1 = self.all_args(variables, backend=backend, **kwargs)
        return self._op(arg0, arg1)


class _AddExpr(_BinaryExpr):
    _op = add
    _op_str = '+'


class _SubExpr(_BinaryExpr):

bjodah / chempy / chempy / chemistry.py View on Github

def equilibrium_expr(self):
        """ Turns self.param into a :class:`EqExpr` instance (if not already)

        Examples
        --------
        >>> r = Equilibrium.from_string('2 A + B = 3 C; 7')
        >>> eqex = r.equilibrium_expr()
        >>> eqex.args[0] == 7
        True

        """
        from .util._expr import Expr
        from .thermodynamics import MassActionEq
        if isinstance(self.param, Expr):
            return self.param
        else:
            try:
                convertible = self.param.as_EqExpr
            except AttributeError:
                return MassActionEq([self.param])
            else:
                return convertible()

bjodah / chempy / chempy / util / _expr_deprecated.py View on Github

Returns
    -------
    Expr subclass for a shifted polynomial with the args: offset, p0, p1, ...
    the class has the method "eval_poly" with same signature as __call__


    Examples
    --------
    >>> P = _mk_Poly('x')
    >>> p = P([3, 5, 7, 2])
    >>> p.eval_poly({'x': 13}) == 5 + 7*(13-3) + 2*(13-3)**2
    True

    """
    class Poly(Expr):
        """ Args: shift, p0, p1, ... """
        argument_names = (shift_name, Ellipsis)
        parameter_keys = (parameter_name,)
        skip_poly = 0

        def eval_poly(self, variables, backend=math):
            all_args = self.all_args(variables, backend=backend)
            x = variables[parameter_name]
            offset, coeffs = all_args[self.skip_poly], all_args[self.skip_poly+1:]
            return _eval_poly(x, offset, coeffs, reciprocal)
    return Poly

bjodah / chempy / chempy / util / _expr.py View on Github

def _all_keys(self, attr):
        _keys = getattr(self, attr)
        _all = set() if _keys is None else set(_keys)
        if self.args is not None:
            for arg in self.args:
                if isinstance(arg, Expr):
                    _all = _all.union(arg._all_keys(attr))
        return _all

bjodah / chempy / chempy / kinetics / rates.py View on Github

def subclass_from_callback(cls, cb, cls_attrs=None):
        """ Override MassAction.__call__ """
        _RateExpr = super(MassAction, cls).subclass_from_callback(cb, cls_attrs=cls_attrs)

        def wrapper(*args, **kwargs):
            obj = _RateExpr(*args, **kwargs)
            return cls(obj)
        return wrapper

    @classmethod
    def from_callback(cls, callback, attr='__call__', **kwargs):
        Wrapper = RateExpr.from_callback(callback, attr=attr, **kwargs)
        return lambda *args, **kwargs: MassAction(Wrapper(*args, **kwargs))


class Arrhenius(Expr):
    """ Rate expression for a Arrhenius-type of rate: c0*exp(-c1/T)

    Examples
    --------
    >>> from math import exp
    >>> from chempy import Reaction
    >>> from chempy.units import allclose, default_units as u
    >>> A = 1e11 / u.second
    >>> Ea_over_R = 42e3/8.3145 * u.K**-1
    >>> ratex = MassAction(Arrhenius([A, Ea_over_R]))
    >>> rxn = Reaction({'R'}, {'P'}, ratex)
    >>> dRdt = rxn.rate({'R': 3*u.M, 'temperature': 298.15*u.K})['R']
    >>> allclose(dRdt, -3*1e11*exp(-42e3/8.3145/298.15)*u.M/u.s)
    True

    """

bjodah / chempy / chempy / kinetics / rates.py View on Github

from collections import OrderedDict
from functools import reduce
import math
from operator import add

from ..units import get_derived_unit, default_units, energy, concentration
from ..util._dimensionality import dimension_codes, base_registry
from ..util.pyutil import memoize, deprecated
from ..util._expr import Expr, UnaryWrapper, Symbol


_molar = getattr(default_units, 'molar', 1)  # makes module importable.


class RateExpr(Expr):
    """ Baseclass for rate expressions, see source code of e.g. MassAction & Radiolytic. """

    @classmethod
    @deprecated(use_instead=Expr.from_callback)
    def subclass_from_callback(cls, cb, cls_attrs=None):
        """ Override RateExpr.__call__

        Parameters
        ----------
        cb : callback
            With signature (variables, all_args, backend) -> scalar
            where `variables` is a dict, `all_args` a tuple and `backend` a module.
        cls_attrs : dict, optional
            Attributes to set in subclass, e.g. parameter_keys, nargs

        Examples

bjodah / chempy / chempy / util / _expr.py View on Github

class Symbol(Expr):
    nargs = 1

    def _str(self, *args, **kwargs):
        uk, = self.unique_keys
        return uk

    def __repr__(self):
        return super(Symbol, self)._str(repr)

    def __call__(self, variables, backend=None, **kwargs):
        uk, = self.unique_keys
        return variables[uk]


class Function(Expr):
    pass


class UnaryFunction(Function):
    nargs = 1
    _func_name = None

    def __call__(self, variables, backend=math, **kwargs):
        arg, = self.all_args(variables, backend=backend, **kwargs)
        return getattr(backend, self._func_name)(arg)

    def rate_coeff(self, *args, **kwargs):
        return getattr(kwargs.get('backend', math), self._func_name)(self.args[0].rate_coeff(*args, **kwargs))


class BinaryFunction(Function):

bjodah / chempy / chempy / kinetics / rates.py View on Github

def args_dimensionality(self, reaction):
        order = reaction.order()
        return (
            {'time': -1, 'temperature': -1,
             'amount': 1-order, 'length': 3*(order - 1)},
            {'temperature': 1},
            concentration
        )

    def __call__(self, variables, backend=math, **kwargs):
        c0, c1, conc0 = self.all_args(variables, backend=backend, **kwargs)
        T = variables['temperature']
        return c0*T*backend.exp(-c1/T)*conc0**(1-kwargs['reaction'].order())


class EyringHS(Expr):
    argument_names = ('dH', 'dS', 'c0')
    argument_defaults = (1*_molar,)
    parameter_keys = ('temperature', 'molar_gas_constant',
                      'Boltzmann_constant', 'Planck_constant')

    def args_dimensionality(self, **kwargs):
        return (
            energy + {'amount': -1},
            energy + {'amount': -1, 'temperature': -1},
            concentration
        )

    def __call__(self, variables, backend=math, reaction=None, **kwargs):
        dH, dS, c0 = self.all_args(variables, backend=backend, **kwargs)
        T, R, kB, h = [variables[k] for k in self.parameter_keys]
        return kB/h*T*backend.exp(-(dH-T*dS)/(R*T))*c0**(1-reaction.order())

bjodah / chempy / chempy / util / _expr.py View on Github

class _MulExpr(_BinaryExpr):
    _op = mul
    _op_str = '*'


class _DivExpr(_BinaryExpr):
    _op = truediv
    _op_str = '/'


class _PowExpr(_BinaryExpr):
    _op = pow
    _op_str = '**'


class Constant(Expr):
    nargs = 1

    def __call__(self, variables, backend=None, **kwargs):
        return self.args[0]

    def rate_coeff(self, *args, **kwargs):
        return self.args[0]


class Symbol(Expr):
    nargs = 1

    def _str(self, *args, **kwargs):
        uk, = self.unique_keys
        return uk

How to use the chempy.util._expr.Expr function in chempy

To help you get started, we’ve selected a few chempy examples, based on popular ways it is used in public projects.

chempy

Package Health Score

Popular chempy functions

Similar packages