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20dd11d586b766f3984fa1b0c7a46ebc14793ae6
PINA/pina/operators.py
Nicola Demo 06932196a8 CUDA option for labeltensor (#23) 
* fix cuda device for labeltensor
2022-09-08 17:31:49 +02:00

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"""Module for operators vectorize implementation"""
import torch
from pina.label_tensor import LabelTensor
def grad(output_, input_, components=None, d=None):
"""
TODO
"""
def grad_scalar_output(output_, input_, d):
"""
"""
if len(output_.labels) != 1:
raise RuntimeError
if not all([di in input_.labels for di in d]):
raise RuntimeError
output_fieldname = output_.labels[0]
gradients = torch.autograd.grad(
output_,
input_,
grad_outputs=torch.ones(output_.size(), dtype=output_.dtype,
device=output_.device),
create_graph=True,
retain_graph=True,
allow_unused=True
)[0]
gradients.labels = input_.labels
gradients = gradients.extract(d)
gradients.labels = [f'd{output_fieldname}d{i}' for i in d]
return gradients
if not isinstance(input_, LabelTensor):
raise TypeError
if d is None:
d = input_.labels
if components is None:
components = output_.labels
if output_.shape[1] == 1: # scalar output ################################
if components != output_.labels:
raise RuntimeError
gradients = grad_scalar_output(output_, input_, d)
elif output_.shape[1] >= 2: # vector output ##############################
for i, c in enumerate(components):
c_output = output_.extract([c])
if i == 0:
gradients = grad_scalar_output(c_output, input_, d)
else:
gradients = gradients.append(
grad_scalar_output(c_output, input_, d))
else:
raise NotImplementedError
return gradients
def div(output_, input_, components=None, d=None):
"""
TODO
"""
if not isinstance(input_, LabelTensor):
raise TypeError
if d is None:
d = input_.labels
if components is None:
components = output_.labels
if output_.shape[1] < 2 or len(components) < 2:
raise ValueError('div supported only for vector field')
if len(components) != len(d):
raise ValueError
grad_output = grad(output_, input_, components, d)
div = torch.zeros(input_.shape[0], 1, device=output_.device)
labels = [None] * len(components)
for i, (c, d) in enumerate(zip(components, d)):
c_fields = f'd{c}d{d}'
div[:, 0] += grad_output.extract(c_fields).sum(axis=1)
labels[i] = c_fields
div = div.as_subclass(LabelTensor)
div.labels = ['+'.join(labels)]
return div
def nabla(output_, input_, components=None, d=None, method='std'):
"""
TODO
"""
if d is None:
d = input_.labels
if components is None:
components = output_.labels
if len(components) != len(d) and len(components) != 1:
raise ValueError
if method == 'divgrad':
raise NotImplementedError
# TODO fix
# grad_output = grad(output_, input_, components, d)
# result = div(grad_output, input_, d=d)
elif method == 'std':
if len(components) == 1:
grad_output = grad(output_, input_, components=components, d=d)
result = torch.zeros(output_.shape[0], 1, device=output_.device)
for i, label in enumerate(grad_output.labels):
gg = grad(grad_output, input_, d=d, components=[label])
result[:, 0] += gg[:, i]
labels = [f'dd{components[0]}']
else:
result = torch.empty(input_.shape[0], len(components),
device=output_.device)
labels = [None] * len(components)
for idx, (ci, di) in enumerate(zip(components, d)):
if not isinstance(ci, list):
ci = [ci]
if not isinstance(di, list):
di = [di]
grad_output = grad(output_, input_, components=ci, d=di)
result[:, idx] = grad(grad_output, input_, d=di).flatten()
labels[idx] = f'dd{ci}dd{di}'
result = result.as_subclass(LabelTensor)
result.labels = labels
return result
def advection(output_, input_, velocity_field, components=None, d=None):
if d is None:
d = input_.labels
if components is None:
components = output_.labels
tmp = grad(output_, input_, components, d
).reshape(-1, len(components), len(d)).transpose(0, 1)
tmp *= output_.extract(velocity_field)
return tmp.sum(dim=2).T
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