linearization.py 3.46 KB
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from __future__ import absolute_import, division, print_function

import numpy as np

from .compat import *
from .field import Field
from .multi.multi_field import MultiField
from .sugar import makeOp


class Linearization(object):
    def __init__(self, val, jac, metric=None):
        self._val = val
        self._jac = jac
        self._metric = metric

    @property
    def domain(self):
        return self._jac.domain

    @property
    def target(self):
        return self._jac.target

    @property
    def val(self):
        return self._val

    @property
    def jac(self):
        return self._jac

    @property
    def metric(self):
        return self._metric

    def __neg__(self):
        return Linearization(-self._val, self._jac*(-1),
                             None if self._metric is None else self._metric*(-1))

    def __add__(self, other):
        if isinstance(other, Linearization):
            from .operators.relaxed_sum_operator import RelaxedSumOperator
            met = None
            if self._metric is not None and other._metric is not None:
                met = RelaxedSumOperator((self._metric, other._metric))
            return Linearization(
                self._val.unite(other._val),
                RelaxedSumOperator((self._jac, other._jac)), met)
        if isinstance(other, (int, float, complex, Field, MultiField)):
            return Linearization(self._val+other, self._jac, self._metric)

    def __radd__(self, other):
        return self.__add__(other)

    def __sub__(self, other):
        return self.__add__(-other)

    def __rsub__(self, other):
        return (-self).__add__(other)

    def __mul__(self, other):
        from .sugar import makeOp
        if isinstance(other, Linearization):
            d1 = makeOp(self._val)
            d2 = makeOp(other._val)
            return Linearization(self._val*other._val,
                                 d2*self._jac + d1*other._jac)
        if isinstance(other, (int, float, complex)):
            # if other == 0:
            #     return ...
            return Linearization(self._val*other, self._jac*other)
        if isinstance(other, (Field, MultiField)):
            d2 = makeOp(other)
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            return Linearization(self._val*other, d2*self._jac)
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        raise TypeError

    def __rmul__(self, other):
        from .sugar import makeOp
        if isinstance(other, (int, float, complex)):
            return Linearization(self._val*other, self._jac*other)
        if isinstance(other, (Field, MultiField)):
            d1 = makeOp(other)
            return Linearization(self._val*other, d1*self._jac)

    def sum(self):
        from .sugar import full
        from .operators.vdot_operator import VdotOperator
        return Linearization(full((),self._val.sum()),
                             VdotOperator(full(self._jac.target,1))*self._jac)

    def exp(self):
        tmp = self._val.exp()
        return Linearization(tmp, makeOp(tmp)*self._jac)

    def log(self):
        tmp = self._val.log()
        return Linearization(tmp, makeOp(1./self._val)*self._jac)

    def add_metric(self, metric):
        return Linearization(self._val, self._jac, metric)

    @staticmethod
    def make_var(field):
        from .operators.scaling_operator import ScalingOperator
        return Linearization(field, ScalingOperator(1., field.domain))

    @staticmethod
    def make_const(field):
        from .operators.null_operator import NullOperator
        return Linearization(field, NullOperator({}, field.domain))