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Work on loop, split and sampling.

master
Stanislaw Adaszewski hace 4 años
padre
commit
7fa7b7372c
Se han modificado 5 ficheros con 147 adiciones y 27 borrados
  1. +1
    -1
      src/triacontagon/loop.py
  2. +34
    -9
      src/triacontagon/sampling.py
  3. +28
    -14
      src/triacontagon/split.py
  4. +67
    -2
      tests/triacontagon/test_loop.py
  5. +17
    -1
      tests/triacontagon/test_sampling.py

+ 1
- 1
src/triacontagon/loop.py Ver fichero

@@ -43,7 +43,7 @@ class TrainLoop(object):
self.model = model
self.test_data = test_data
self.initial_repr = list(initial_repr)
self.max_epochs = int(num_epochs)
self.max_epochs = int(max_epochs)
self.batch_size = int(batch_size)
self.loss = loss
self.lr = float(lr)


+ 34
- 9
src/triacontagon/sampling.py Ver fichero

@@ -20,7 +20,7 @@ def fixed_unigram_candidate_sampler(
true_classes: torch.Tensor,
num_repeats: torch.Tensor,
unigrams: torch.Tensor,
distortion: float = 1.):
distortion: float = 1.) -> torch.Tensor:
if len(true_classes.shape) != 2:
raise ValueError('true_classes must be a 2D matrix with shape (num_samples, num_true)')
@@ -29,26 +29,34 @@ def fixed_unigram_candidate_sampler(
raise ValueError('num_repeats must be 1D')
num_rows = true_classes.shape[0]
print('true_classes.shape:', true_classes.shape)
# unigrams = np.array(unigrams)
if distortion != 1.:
unigrams = unigrams.to(torch.float64) ** distortion
# print('unigrams:', unigrams)
print('unigrams:', unigrams)
indices = torch.arange(num_rows)
indices = torch.repeat_interleave(indices, num_repeats)
indices = torch.cat([ torch.arange(len(indices)).view(-1, 1),
indices.view(-1, 1) ], dim=1)
num_samples = len(indices)
result = torch.zeros(num_samples, dtype=torch.long)
print('num_rows:', num_rows, 'num_samples:', num_samples)
while len(indices) > 0:
# print('len(indices):', len(indices))
print('len(indices):', len(indices))
print('indices:', indices)
sampler = torch.utils.data.WeightedRandomSampler(unigrams, len(indices))
candidates = torch.tensor(list(sampler))
candidates = candidates.view(len(indices), 1)
# print('candidates:', candidates)
# print('true_classes:', true_classes[indices, :])
result[indices] = candidates.transpose(0, 1)
# print('result:', result)
mask = (candidates == true_classes[indices, :])
print('candidates:', candidates)
print('true_classes:', true_classes[indices[:, 1], :])
result[indices[:, 0]] = candidates.transpose(0, 1)
print('result:', result)
mask = (candidates == true_classes[indices[:, 1], :])
mask = mask.sum(1).to(torch.bool)
# print('mask:', mask)
print('mask:', mask)
indices = indices[mask]
# result[indices] = 0
return result
@@ -164,3 +172,20 @@ def negative_sample_data(data: Data) -> Data:
#new_edge_types[key] = new_et
#res = Data(data.vertex_types, new_edge_types)
return res
def merge_data(pos_data: Data, neg_data: Data) -> Data:
assert isinstance(pos_data, Data)
assert isinstance(neg_data, Data)
res = PosNegData()
for vt in pos_data.vertex_types:
res.add_vertex_type(vt.name, vt.count)
for key, pos_et in pos_data.edge_types.items():
neg_et = neg_data.edge_types[key]
res.add_edge_type(pos_et.name,
pos_et.vertex_type_row, pos_et.vertex_type_column,
pos_et.adjacency_matrices, neg_et.adjacency_matrices,
pos_et.decoder_factory)

+ 28
- 14
src/triacontagon/split.py Ver fichero

@@ -1,8 +1,9 @@
from .data import Data, \
TrainingBatch, \
EdgeType
from typing import Tuple
from typing import Tuple, \
List
from .util import _sparse_coo_tensor
import torch
def split_adj_mat(adj_mat: torch.Tensor, ratios: List[float]):
@@ -17,21 +18,30 @@ def split_adj_mat(adj_mat: torch.Tensor, ratios: List[float]):
ofs = 0
res = []
for r in ratios:
cnt = r * len(values)
ind = indices[:, ofs:ofs+cnt]
val = values[ofs:ofs+cnt]
# cnt = r * len(values)
beg = int(ofs * len(values))
end = int((ofs + r) * len(values))
ofs += r
ind = indices[:, beg:end]
val = values[beg:end]
res.append(_sparse_coo_tensor(ind, val, adj_mat.shape))
ofs += cnt
# ofs += cnt
return res
def split_edge_type(et: EdgeType, ratios: Tuple[float, float, float]):
res = [ [] for _ in range(len(et.adjacency_matrices)) ]
res = [ split_adj_mat(adj_mat, ratios) \
for adj_mat in et.adjacency_matrices ]
for adj_mat in et.adjacency_matrices:
for i, new_adj_mat in enumerate(split_adj_mat(adj_mat, ratios)):
res[i].append(new_adj_mat)
res = [ EdgeType(et.name,
et.vertex_type_row,
et.vertex_type_column,
[ a[i] for a in res ],
et.decoder_factory,
None ) for i in range(len(ratios)) ]
return res
@@ -49,11 +59,15 @@ def split_data(data: Data,
res = [ {} for _ in range(len(ratios)) ]
for key, et in data.edge_types:
for key, et in data.edge_types.items():
for i, new_et in enumerate(split_edge_type(et, ratios)):
res[i][key] = new_et
res = [ Data(data.vertex_types, new_edge_types) \
for new_edge_types in res ]
res_1 = []
for new_edge_types in res:
d = Data()
d.vertex_types = data.vertex_types,
d.edge_types = new_edge_types
res_1.append(d)
return res
return res_1

+ 67
- 2
tests/triacontagon/test_loop.py Ver fichero

@@ -1,5 +1,11 @@
from triacontagon.loop import _merge_pos_neg_batches
from triacontagon.model import TrainingBatch
from triacontagon.loop import _merge_pos_neg_batches, \
TrainLoop
from triacontagon.model import TrainingBatch, \
Model
from triacontagon.data import Data
from triacontagon.decode import dedicom_decoder
from triacontagon.util import common_one_hot_encoding
from triacontagon.split import split_data
import torch
import pytest
@@ -64,3 +70,62 @@ def test_merge_pos_neg_batches_02():
print(b_1)
with pytest.raises(AssertionError):
_ = _merge_pos_neg_batches(b_1, b_2)
def test_train_loop_01():
data = Data()
data.add_vertex_type('Foo', 5)
data.add_vertex_type('Bar', 4)
foo_foo = torch.tensor([
[0, 0, 0, 1, 0],
[0, 0, 1, 0, 0],
[1, 0, 0, 1, 0],
[0, 0, 1, 0, 1],
[0, 1, 0, 0, 0]
])
foo_foo = (foo_foo + foo_foo.transpose(0, 1)) / 2
foo_bar = torch.tensor([
[0, 1, 0, 1],
[0, 0, 0, 1],
[0, 1, 0, 0],
[1, 0, 0, 0],
[0, 0, 1, 1]
])
bar_foo = foo_bar.transpose(0, 1)
bar_bar = torch.tensor([
[0, 0, 1, 0],
[1, 0, 0, 0],
[0, 1, 0, 1],
[0, 1, 0, 0],
])
bar_bar = (bar_bar + bar_bar.transpose(0, 1)) / 2
data.add_edge_type('Foo-Foo', 0, 0, [
foo_foo.to_sparse().coalesce()
], dedicom_decoder)
data.add_edge_type('Foo-Bar', 0, 1, [
foo_bar.to_sparse().coalesce()
], dedicom_decoder)
data.add_edge_type('Bar-Foo', 1, 0, [
bar_foo.to_sparse().coalesce()
], dedicom_decoder)
data.add_edge_type('Bar-Bar', 1, 1, [
bar_bar.to_sparse().coalesce()
], dedicom_decoder)
initial_repr = common_one_hot_encoding([5, 4])
model = Model(data, [9, 3, 6],
keep_prob=1.0,
conv_activation=torch.sigmoid,
dec_activation=torch.sigmoid)
train_data, val_data, test_data = split_data(data, (.9, .1, .0) )
loop = TrainLoop(model, val_data, test_data, initial_repr,
max_epochs=1, batch_size=1)
_ = loop.run()

+ 17
- 1
tests/triacontagon/test_sampling.py Ver fichero

@@ -1,5 +1,6 @@
from triacontagon.data import Data
from triacontagon.sampling import get_true_classes, \
from triacontagon.sampling import fixed_unigram_candidate_sampler, \
get_true_classes, \
negative_sample_adj_mat, \
negative_sample_data
from triacontagon.decode import dedicom_decoder
@@ -7,6 +8,21 @@ import torch
import time
def test_fixed_unigram_candidate_sampler_01():
true_classes = torch.tensor([[-1],
[-1],
[ 3],
[ 2],
[-1]])
num_repeats = torch.tensor([0, 0, 1, 1, 0])
unigrams = torch.tensor([0., 0., 1., 1., 0.], dtype=torch.float64)
distortion = 0.75
res = fixed_unigram_candidate_sampler(true_classes, num_repeats,
unigrams, distortion)
print('res:', res)
def test_get_true_classes_01():
adj_mat = torch.tensor([
[0, 1, 0, 1, 0],


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