本文整理汇总了Python中tensorflow.python.ops.variables.initialize_variables函数的典型用法代码示例。如果您正苦于以下问题:Python initialize_variables函数的具体用法?Python initialize_variables怎么用?Python initialize_variables使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。
在下文中一共展示了initialize_variables函数的9个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的Python代码示例。
示例1: test_local_variable
def test_local_variable(self):
with self.test_session() as sess:
self.assertEquals([], variables_lib.local_variables())
value0 = 42
variables_lib2.local_variable(value0)
value1 = 43
variables_lib2.local_variable(value1)
variables = variables_lib.local_variables()
self.assertEquals(2, len(variables))
self.assertRaises(errors_impl.OpError, sess.run, variables)
variables_lib.initialize_variables(variables).run()
self.assertAllEqual(set([value0, value1]), set(sess.run(variables)))
开发者ID:AndrewTwinz,项目名称:tensorflow,代码行数:12,代码来源:tensor_util_test.py
示例2: testConvertVariablesToConsts
def testConvertVariablesToConsts(self):
with ops.Graph().as_default():
variable_node = variables.Variable(1.0, name="variable_node")
_ = variables.Variable(1.0, name="unused_variable_node")
output_node = math_ops_lib.multiply(
variable_node, 2.0, name="output_node")
with session.Session() as sess:
init = variables.initialize_variables([variable_node])
sess.run(init)
output = sess.run(output_node)
self.assertNear(2.0, output, 0.00001)
variable_graph_def = sess.graph.as_graph_def()
# First get the constant_graph_def when variable_names_whitelist is set,
# note that if variable_names_whitelist is not set an error will be
# thrown because unused_variable_node is not initialized.
constant_graph_def = graph_util.convert_variables_to_constants(
sess,
variable_graph_def, ["output_node"],
variable_names_whitelist=set(["variable_node"]))
# Then initialize the unused variable, and get another
# constant_graph_def when variable_names_whitelist is not set.
sess.run(variables.global_variables_initializer())
constant_graph_def_without_variable_whitelist = (
graph_util.convert_variables_to_constants(sess, variable_graph_def,
["output_node"]))
# The unused variable should be cleared so the two graphs should be
# equivalent.
self.assertEqual(
str(constant_graph_def),
str(constant_graph_def_without_variable_whitelist))
# Test variable name black list. This should result in the variable not
# being a const.
sess.run(variables.global_variables_initializer())
constant_graph_def_with_blacklist = (
graph_util.convert_variables_to_constants(
sess,
variable_graph_def, ["output_node"],
variable_names_blacklist=set(["variable_node"])))
variable_node = None
for node in constant_graph_def_with_blacklist.node:
if node.name == "variable_node":
variable_node = node
self.assertIsNotNone(variable_node)
self.assertEqual(variable_node.op, "VariableV2")
# Now we make sure the variable is now a constant, and that the graph still
# produces the expected result.
with ops.Graph().as_default():
_ = importer.import_graph_def(constant_graph_def, name="")
self.assertEqual(4, len(constant_graph_def.node))
for node in constant_graph_def.node:
self.assertNotEqual("Variable", node.op)
self.assertNotEqual("VariableV2", node.op)
with session.Session() as sess:
output_node = sess.graph.get_tensor_by_name("output_node:0")
output = sess.run(output_node)
self.assertNear(2.0, output, 0.00001)
开发者ID:1000sprites,项目名称:tensorflow,代码行数:60,代码来源:graph_util_test.py
示例3: testConvertVariablesToConstsWithFunctions
def testConvertVariablesToConstsWithFunctions(self):
@function.Defun(dtypes.float32)
def plus_one(x):
return x + 1.0
with ops.Graph().as_default():
variable_node = variables.Variable(1.0, name="variable_node")
_ = variables.Variable(1.0, name="unused_variable_node")
defun_node = plus_one(variable_node)
output_node = math_ops_lib.multiply(
defun_node, 2.0, name="output_node")
with session.Session() as sess:
init = variables.initialize_variables([variable_node])
sess.run(init)
output = sess.run(output_node)
self.assertNear(4.0, output, 0.00001)
variable_graph_def = sess.graph.as_graph_def()
# First get the constant_graph_def when variable_names_whitelist is set,
# note that if variable_names_whitelist is not set an error will be
# thrown because unused_variable_node is not initialized.
constant_graph_def = graph_util.convert_variables_to_constants(
sess,
variable_graph_def, ["output_node"],
variable_names_whitelist=set(["variable_node"]))
self.assertEqual(variable_graph_def.library,
constant_graph_def.library)
开发者ID:1000sprites,项目名称:tensorflow,代码行数:29,代码来源:graph_util_test.py
示例4: __setitem__
def __setitem__(self, index, value):
for use_gpu in [False, True]:
with self.test.test_session(use_gpu=use_gpu) as sess:
var = variables.Variable(self.x)
sess.run(variables.initialize_variables([var]))
val = sess.run(var[index].assign(
constant_op.constant(
value, dtype=self.tensor_type)))
valnp = np.copy(self.x_np)
valnp[index] = np.array(value)
self.test.assertAllEqual(val, valnp)
开发者ID:Immexxx,项目名称:tensorflow,代码行数:11,代码来源:array_ops_test.py
示例5: __setitem__
def __setitem__(self, index, value):
value = np.array(value).astype(self.tensor_type.as_numpy_dtype)
# Give the value a non-zero imaginary component for complex types.
if self.tensor_type.is_complex:
value -= 1j * value
with self.test.test_session(use_gpu=True) as sess:
var = variables.Variable(self.x)
sess.run(variables.initialize_variables([var]))
val = sess.run(var[index].assign(
constant_op.constant(
value, dtype=self.tensor_type)))
valnp = np.copy(self.x_np)
valnp[index] = np.array(value)
self.test.assertAllEqual(val, valnp)
开发者ID:hailingc,项目名称:tensorflow,代码行数:15,代码来源:array_ops_test.py
示例6: __setitem__
def __setitem__(self, index, value):
value = np.array(value).astype(self.tensor_type.as_numpy_dtype)
# Give the value a non-zero imaginary component for complex types.
if self.tensor_type.is_complex:
value -= 1j * value
with self.test.test_session(use_gpu=True) as sess:
var = variables.Variable(self.x)
sess.run(variables.initialize_variables([var]))
val = sess.run(var[index].assign(value))
# val_copy is used to check that tf.assign works equivalently to the
# assign method above.
val_copy = sess.run(state_ops.assign(var[index], value))
valnp = np.copy(self.x_np)
valnp[index] = np.array(value)
self.test.assertAllEqual(val, valnp)
self.test.assertAllEqual(val_copy, valnp)
开发者ID:LUTAN,项目名称:tensorflow,代码行数:17,代码来源:array_ops_test.py
示例7: _testIntegrated
def _testIntegrated(self, batch_size, model_dim, num_timesteps, ff_fun, sim_fun):
"""
Test the simplest possible transition sequence on a batch of random inputs.
"""
tf.reset_default_graph()
embedding_dim = model_dim
num_tokens = (num_timesteps + 1) / 2
with self.test_session(use_gpu=self.use_gpu) as s:
stack = Variable(np.zeros((batch_size * num_timesteps, model_dim), dtype=np.float32), name="stack")
buffer = Variable(np.random.random((batch_size * num_tokens, embedding_dim)).astype(np.float32), name="buffer")
queue = Variable(np.zeros((batch_size * num_timesteps,), dtype=np.float32), name="queue")
cursors = Variable(np.zeros((batch_size,), dtype=np.float32) - 1., name="cursors")
buffer_cursors = Variable(np.zeros((batch_size,), dtype=np.float32), name="buffer_cursors")
######## Fprop test.
top = ff_fun(batch_size, stack, buffer, queue, cursors, buffer_cursors)
top_sim = sim_fun(buffer)
s.run(initialize_variables(tf.all_variables()))
######## Bprop test.
# Get some scalar error signal for grad calculation
top, top_sim = tf.reduce_sum(top), tf.reduce_sum(top_sim)
with tf.control_dependencies([top]):
grad = tf.gradients(top, buffer)[0]
grad_sim = tf.gradients(top_sim, buffer)[0]
######## Run fetches.
ret = s.run([top, top_sim, grad, grad_sim])
top_, top_sim_, grad_, grad_sim_ = ret[:4]
self.assertAllClose(top_, top_sim_)
self.assertAllClose(grad_, grad_sim_)
开发者ID:hans,项目名称:tensorflow,代码行数:36,代码来源:thin_stack_test.py
示例8: testIntermediateLookupGrad
def testIntermediateLookupGrad(self):
"""
Test the gradient of a standard lookup somewhere in the middle of a stack
recurrence.
"""
batch_size = 2
model_dim = 5
embedding_dim = 5
num_timesteps = 5
num_tokens = (num_timesteps + 1) / 2
with self.test_session(use_gpu=self.use_gpu) as s:
# Example 1: S S R S
# Example 2: S S S R
# ^
# we are running lookup at the above timestep
stack = Variable([[-1., -1., -1., -1., -1.],
[ 1., 1., 1., 1., 1.],
[-2., -2., -2., -2., -2.],
[ 2., 2., 2., 2., 2.],
[-3., -3., -3., -3., -3.],
[ 3., 3., 3., 3., 3.],
[ 0., 0., 0., 0., 0.],
[ 0., 0., 0., 0., 0.],
[ 0., 0., 0., 0., 0.],
[ 0., 0., 0., 0., 0.]])
buffer = Variable([[-1., -1., -1., -1., -1.],
[ 1., 1., 1., 1., 1.],
[-2., -2., -2., -2., -2.],
[ 2., 2., 2., 2., 2.],
[-3., -3., -3., -3., -3.],
[ 3., 3., 3., 3., 3.]])
queue = Variable([2., 0.,
0., 1.,
0., 2.,
0., 0.,
0., 0.])
cursors = Variable([0., 2.])
buffer_cursors = Variable([2., 3.])
s.run(initialize_variables([stack, buffer, queue, cursors, buffer_cursors]))
stack_val = stack.eval()
buffer_val = buffer.eval()
lookup = ts.thin_stack_lookup(stack, buffer, queue, cursors, buffer_cursors, timestep=3)
#### GRADIENT
stack1_grad = tf.random_uniform((batch_size, model_dim))
stack2_grad = tf.random_uniform((batch_size, model_dim))
buf_top_grad = tf.random_uniform((batch_size, model_dim))
in_grads = (stack1_grad, stack2_grad, buf_top_grad, None)
# HACK: Zero out stack and buffer before invoking this op.
# In a real / full bprop, things would have been zeroed out
# at the start of the bprop algorithm.
zero_stack = tf.assign(stack, stack * 0.)
zero_buffer = tf.assign(buffer, buffer * 0.)
# Enforce computation order: lookup, then zero out, then grad
with tf.control_dependencies(lookup + (zero_stack, zero_buffer)):
out_grads = ts._thin_stack_lookup_gradient(lookup[0].op, in_grads)
out_grads = out_grads[:2]
fetch = out_grads + (stack1_grad, stack2_grad, buf_top_grad)
ret = s.run(fetch)
grad_stack, grad_buffer, stack1_grad, stack2_grad, buf_top_grad = ret
grad_stack_expected = np.zeros_like(stack_val)
开发者ID:hans,项目名称:tensorflow,代码行数:74,代码来源:thin_stack_lookup_grad_test.py
示例9: testIntermediateUpdate
def testIntermediateUpdate(self):
"""Test a standard update somewhere in the middle of a stack recurrence."""
batch_size = 2
model_dim = 5
embedding_dim = 5
num_timesteps = 5
num_tokens = (num_timesteps + 1) / 2
with self.test_session(use_gpu=self.use_gpu) as s:
# Example 1: S S R S
# Example 2: S S S R
# ^
# we are running lookup at the above timestep
stack = Variable([[-1., -1., -1., -1., -1.],
[ 1., 1., 1., 1., 1.],
[-2., -2., -2., -2., -2.],
[ 2., 2., 2., 2., 2.],
[-3., -3., -3., -3., -3.],
[ 3., 3., 3., 3., 3.],
[ 0., 0., 0., 0., 0.],
[ 0., 0., 0., 0., 0.],
[ 0., 0., 0., 0., 0.],
[ 0., 0., 0., 0., 0.]])
buffer = Variable([[-1., -1., -1., -1., -1.],
[ 1., 1., 1., 1., 1.],
[-2., -2., -2., -2., -2.],
[ 2., 2., 2., 2., 2.],
[-3., -3., -3., -3., -3.],
[ 3., 3., 3., 3., 3.]])
queue = Variable([2., 0.,
0., 1.,
0., 2.,
0., 0.,
0., 0.])
cursors = Variable([0., 2.])
buffer_cursors = constant_op.constant([2., 3.])
t = 3
s.run(initialize_variables([stack, buffer, queue, cursors]))
stack_val = stack.eval()
buffer_val = buffer.eval()
shift_in = constant_op.constant(np.array([buffer_val[4], buffer_val[5]]))
reduce_in = constant_op.constant(np.array([stack_val[4] + stack_val[0],
stack_val[5] + stack_val[3]]))
transitions = tf.expand_dims(constant_op.constant([0., 1.]), 1)
input_val = transitions * reduce_in + (1. - transitions) * shift_in
ret = ts.thin_stack_update(input_val, transitions,
stack, queue, cursors, buffer_cursors, t)
stack_next, queue_next, cursors_next, buffer_cursors_next = s.run(ret)
stack_expected = np.copy(stack_val)
stack_expected[6] = buffer_val[4]
stack_expected[7] = stack_val[5] + stack_val[3]
queue_expected = np.array([2., 0.,
3., 3.,
0., 2., # NB: we didn't erase this, but it's okay
0., 0.,
0., 0.])
cursors_expected = np.array([1., 1.])
buffer_cursors_expected = np.array([3., 3.])
self.assertAllEqual(stack_next, stack_expected)
self.assertAllEqual(queue_next, queue_expected)
self.assertAllEqual(cursors_next, cursors_expected)
self.assertAllEqual(buffer_cursors_next, buffer_cursors_expected)
开发者ID:hans,项目名称:tensorflow,代码行数:71,代码来源:thin_stack_update_test.py
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