本文整理匯總了Python中tensorflow.python.ops.gen_math_ops.imag方法的典型用法代碼示例。如果您正苦於以下問題:Python gen_math_ops.imag方法的具體用法?Python gen_math_ops.imag怎麽用?Python gen_math_ops.imag使用的例子?那麽, 這裏精選的方法代碼示例或許可以為您提供幫助。您也可以進一步了解該方法所在類tensorflow.python.ops.gen_math_ops
的用法示例。
在下文中一共展示了gen_math_ops.imag方法的8個代碼示例,這些例子默認根據受歡迎程度排序。您可以為喜歡或者感覺有用的代碼點讚,您的評價將有助於係統推薦出更棒的Python代碼示例。
示例1: imag
# 需要導入模塊: from tensorflow.python.ops import gen_math_ops [as 別名]
# 或者: from tensorflow.python.ops.gen_math_ops import imag [as 別名]
def imag(input, name=None):
"""Returns the imaginary part of a complex number.
Given a tensor `input` of complex numbers, this operation returns a tensor of
type `float32` or `float64` that is the imaginary part of each element in
`input`. All elements in `input` must be complex numbers of the form \\(a +
bj\\), where *a* is the real part and *b* is the imaginary part returned by
this operation.
For example:
```
# tensor 'input' is [-2.25 + 4.75j, 3.25 + 5.75j]
tf.imag(input) ==> [4.75, 5.75]
```
Args:
input: A `Tensor`. Must be one of the following types: `complex64`, `complex128`.
name: A name for the operation (optional).
Returns:
A `Tensor` of type `float32` or `float64`.
"""
with ops.name_scope(name, "Imag", [input]) as name:
return gen_math_ops.imag(input, Tout=input.dtype.real_dtype, name=name)
示例2: imag
# 需要導入模塊: from tensorflow.python.ops import gen_math_ops [as 別名]
# 或者: from tensorflow.python.ops.gen_math_ops import imag [as 別名]
def imag(input, name=None):
r"""Returns the imaginary part of a complex number.
Given a tensor `input` of complex numbers, this operation returns a tensor of
type `float` that is the argument of each element in `input`. All elements in
`input` must be complex numbers of the form \\(a + bj\\), where *a*
is the real part and *b* is the imaginary part returned by the operation.
For example:
```python
x = tf.constant([-2.25 + 4.75j, 3.25 + 5.75j])
tf.imag(x) # [4.75, 5.75]
```
Args:
input: A `Tensor`. Must be one of the following types: `complex64`,
`complex128`.
name: A name for the operation (optional).
Returns:
A `Tensor` of type `float32` or `float64`.
"""
with ops.name_scope(name, "Imag", [input]) as name:
return gen_math_ops.imag(input, Tout=input.dtype.real_dtype, name=name)
開發者ID:PacktPublishing,項目名稱:Serverless-Deep-Learning-with-TensorFlow-and-AWS-Lambda,代碼行數:27,代碼來源:math_ops.py
示例3: complex
# 需要導入模塊: from tensorflow.python.ops import gen_math_ops [as 別名]
# 或者: from tensorflow.python.ops.gen_math_ops import imag [as 別名]
def complex(real, imag, name=None):
r"""Converts two real numbers to a complex number.
Given a tensor `real` representing the real part of a complex number, and a
tensor `imag` representing the imaginary part of a complex number, this
operation returns complex numbers elementwise of the form \\(a + bj\\), where
*a* represents the `real` part and *b* represents the `imag` part.
The input tensors `real` and `imag` must have the same shape.
For example:
```
# tensor 'real' is [2.25, 3.25]
# tensor `imag` is [4.75, 5.75]
tf.complex(real, imag) ==> [[2.25 + 4.75j], [3.25 + 5.75j]]
```
Args:
real: A `Tensor`. Must be one of the following types: `float32`,
`float64`.
imag: A `Tensor`. Must have the same type as `real`.
name: A name for the operation (optional).
Returns:
A `Tensor` of type `complex64` or `complex128`.
"""
real = ops.convert_to_tensor(real, name="real")
imag = ops.convert_to_tensor(imag, name="imag")
with ops.name_scope(name, "Complex", [real, imag]) as name:
input_types = (real.dtype, imag.dtype)
if input_types == (dtypes.float64, dtypes.float64):
Tout = dtypes.complex128
elif input_types == (dtypes.float32, dtypes.float32):
Tout = dtypes.complex64
else:
raise TypeError("real and imag have incorrect types: "
"{} {}".format(real.dtype.name, imag.dtype.name))
return gen_math_ops._complex(real, imag, Tout=Tout, name=name)
示例4: imag
# 需要導入模塊: from tensorflow.python.ops import gen_math_ops [as 別名]
# 或者: from tensorflow.python.ops.gen_math_ops import imag [as 別名]
def imag(input, name=None):
r"""Returns the imaginary part of a complex number.
Given a tensor `input` of complex numbers, this operation returns a tensor of
type `float32` or `float64` that is the imaginary part of each element in
`input`. All elements in `input` must be complex numbers of the form \\(a +
bj\\), where *a* is the real part and *b* is the imaginary part returned by
this operation.
For example:
```
# tensor 'input' is [-2.25 + 4.75j, 3.25 + 5.75j]
tf.imag(input) ==> [4.75, 5.75]
```
Args:
input: A `Tensor`. Must be one of the following types: `complex64`,
`complex128`.
name: A name for the operation (optional).
Returns:
A `Tensor` of type `float32` or `float64`.
"""
with ops.name_scope(name, "Imag", [input]) as name:
return gen_math_ops.imag(input, Tout=input.dtype.real_dtype, name=name)
# pylint: enable=redefined-outer-name,redefined-builtin
示例5: complex
# 需要導入模塊: from tensorflow.python.ops import gen_math_ops [as 別名]
# 或者: from tensorflow.python.ops.gen_math_ops import imag [as 別名]
def complex(real, imag, name=None):
r"""Converts two real numbers to a complex number.
Given a tensor `real` representing the real part of a complex number, and a
tensor `imag` representing the imaginary part of a complex number, this
operation returns complex numbers elementwise of the form \\(a + bj\\), where
*a* represents the `real` part and *b* represents the `imag` part.
The input tensors `real` and `imag` must have the same shape.
For example:
```
# tensor 'real' is [2.25, 3.25]
# tensor `imag` is [4.75, 5.75]
tf.complex(real, imag) ==> [[2.25 + 4.75j], [3.25 + 5.75j]]
```
Args:
real: A `Tensor`. Must be one of the following types: `float32`,
`float64`.
imag: A `Tensor`. Must have the same type as `real`.
name: A name for the operation (optional).
Returns:
A `Tensor` of type `complex64` or `complex128`.
"""
real = ops.convert_to_tensor(real, name="real")
imag = ops.convert_to_tensor(imag, name="imag")
with ops.name_scope(name, "Complex", [real, imag]) as name:
input_types = (real.dtype, imag.dtype)
if input_types == (dtypes.float64, dtypes.float64):
Tout = dtypes.complex128
elif input_types == (dtypes.float32, dtypes.float32):
Tout = dtypes.complex64
else:
raise TypeError("real and imag have incorrect types: "
"{} {}".format(real.dtype.name,
imag.dtype.name))
return gen_math_ops._complex(real, imag, Tout=Tout, name=name)
示例6: imag
# 需要導入模塊: from tensorflow.python.ops import gen_math_ops [as 別名]
# 或者: from tensorflow.python.ops.gen_math_ops import imag [as 別名]
def imag(input, name=None):
"""Returns the imaginary part of a complex number.
Given a tensor `input` of complex numbers, this operation returns a tensor of
type `float32` or `float64` that is the imaginary part of each element in
`input`. All elements in `input` must be complex numbers of the form \\(a +
bj\\), where *a* is the real part and *b* is the imaginary part returned by
this operation.
For example:
```
# tensor 'input' is [-2.25 + 4.75j, 3.25 + 5.75j]
tf.imag(input) ==> [4.75, 5.75]
```
Args:
input: A `Tensor`. Must be one of the following types: `complex64`,
`complex128`.
name: A name for the operation (optional).
Returns:
A `Tensor` of type `float32` or `float64`.
"""
with ops.name_scope(name, "Imag", [input]) as name:
return gen_math_ops.imag(input, Tout=input.dtype.real_dtype, name=name)
# pylint: enable=redefined-outer-name,redefined-builtin
示例7: complex
# 需要導入模塊: from tensorflow.python.ops import gen_math_ops [as 別名]
# 或者: from tensorflow.python.ops.gen_math_ops import imag [as 別名]
def complex(real, imag, name=None):
"""Converts two real numbers to a complex number.
Given a tensor `real` representing the real part of a complex number, and a
tensor `imag` representing the imaginary part of a complex number, this
operation returns complex numbers elementwise of the form \\(a + bj\\), where
*a* represents the `real` part and *b* represents the `imag` part.
The input tensors `real` and `imag` must have the same shape.
For example:
```
# tensor 'real' is [2.25, 3.25]
# tensor `imag` is [4.75, 5.75]
tf.complex(real, imag) ==> [[2.25 + 4.75j], [3.25 + 5.75j]]
```
Args:
real: A `Tensor`. Must be one of the following types: `float32`, `float64`.
imag: A `Tensor`. Must have the same type as `real`.
name: A name for the operation (optional).
Returns:
A `Tensor` of type `complex64` or `complex128`.
"""
real = ops.convert_to_tensor(real, name="real")
imag = ops.convert_to_tensor(imag, name="imag")
with ops.name_scope(name, "Complex", [real, imag]) as name:
input_types = (real.dtype, imag.dtype)
if input_types == (dtypes.float64, dtypes.float64):
Tout = dtypes.complex128
elif input_types == (dtypes.float32, dtypes.float32):
Tout = dtypes.complex64
else:
raise TypeError("real and imag have incorrect types: "
"{} {}".format(real.dtype.name, imag.dtype.name))
return gen_math_ops._complex(real, imag, Tout=Tout, name=name)
示例8: complex
# 需要導入模塊: from tensorflow.python.ops import gen_math_ops [as 別名]
# 或者: from tensorflow.python.ops.gen_math_ops import imag [as 別名]
def complex(real, imag, name=None):
r"""Converts two real numbers to a complex number.
Given a tensor `real` representing the real part of a complex number, and a
tensor `imag` representing the imaginary part of a complex number, this
operation returns complex numbers elementwise of the form \\(a + bj\\), where
*a* represents the `real` part and *b* represents the `imag` part.
The input tensors `real` and `imag` must have the same shape.
For example:
```python
real = tf.constant([2.25, 3.25])
imag = tf.constant([4.75, 5.75])
tf.complex(real, imag) # [[2.25 + 4.75j], [3.25 + 5.75j]]
```
Args:
real: A `Tensor`. Must be one of the following types: `float32`,
`float64`.
imag: A `Tensor`. Must have the same type as `real`.
name: A name for the operation (optional).
Returns:
A `Tensor` of type `complex64` or `complex128`.
"""
real = ops.convert_to_tensor(real, name="real")
imag = ops.convert_to_tensor(imag, name="imag")
with ops.name_scope(name, "Complex", [real, imag]) as name:
input_types = (real.dtype, imag.dtype)
if input_types == (dtypes.float64, dtypes.float64):
Tout = dtypes.complex128
elif input_types == (dtypes.float32, dtypes.float32):
Tout = dtypes.complex64
else:
raise TypeError("real and imag have incorrect types: "
"{} {}".format(real.dtype.name, imag.dtype.name))
return gen_math_ops._complex(real, imag, Tout=Tout, name=name)
開發者ID:PacktPublishing,項目名稱:Serverless-Deep-Learning-with-TensorFlow-and-AWS-Lambda,代碼行數:41,代碼來源:math_ops.py