A tensor field is described by a tensor at each point of a
three-dimensional rectangular grid. The grid spacing must be uniform.
Tensor fields are implemented as a subclass of InterpolatingFunction from
the module Scientific.Functions.Interpolation and thus share all methods
defined in that class.
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number
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__call__(self,
*points)
Returns:
the function value obtained by linear interpolation |
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InterpolatingFunction or number
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__getitem__(self,
index)
Returns:
an InterpolatingFunction whose number of variables is reduced, or a
number if no variable is left |
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__init__(self,
rank,
axes,
values,
default=None,
period=(None, None, None),
check=True) |
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(TensorField, TensorField, TensorField)
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allDerivatives(self)
Returns:
all three derivatives (x, y, z) on equal-sized grids |
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TensorField
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derivative(self,
variable)
Returns:
the derivative with respect to variable |
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Scientifc.Geometry.Tensor
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zero(self)
Returns:
a tensor of the same rank as the field values with all elements equal
to zero |
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Inherited from Functions.Interpolation.InterpolatingFunction:
__abs__,
__getattr__,
__getslice__,
__len__,
arccos,
arcsin,
arctan,
cos,
cosh,
definiteIntegral,
exp,
fitPolynomial,
integral,
log,
selectInterval,
sin,
sinh,
sqrt,
tan,
tanh
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