Returns the truth value of x AND y element-wise.
tf.raw_ops.LogicalAnd(
x, y, name=None
)
Logical AND function.
Requires that x and y have the same shape or have
broadcast-compatible
shapes. For example, x and y can be:
- Two single elements of type
bool. - One
tf.Tensorof typebooland one singlebool, where the result will be calculated by applying logical AND with the single element to each element in the larger Tensor. - Two
tf.Tensorobjects of typeboolof the same shape. In this case, the result will be the element-wise logical AND of the two input tensors.
You can also use the & operator instead.
Usage:
a = tf.constant([True])b = tf.constant([False])tf.math.logical_and(a, b)<tf.Tensor: shape=(1,), dtype=bool, numpy=array([False])>a & b<tf.Tensor: shape=(1,), dtype=bool, numpy=array([False])>
c = tf.constant([True])x = tf.constant([False, True, True, False])tf.math.logical_and(c, x)<tf.Tensor: shape=(4,), dtype=bool, numpy=array([False, True, True, False])>c & x<tf.Tensor: shape=(4,), dtype=bool, numpy=array([False, True, True, False])>
y = tf.constant([False, False, True, True])z = tf.constant([False, True, False, True])tf.math.logical_and(y, z)<tf.Tensor: shape=(4,), dtype=bool, numpy=array([False, False, False, True])>y & z<tf.Tensor: shape=(4,), dtype=bool, numpy=array([False, False, False, True])>
This op also supports broadcasting
tf.logical_and([[True, False]], [[True], [False]])<tf.Tensor: shape=(2, 2), dtype=bool, numpy=array([[ True, False],[False, False]])>
The reduction version of this elementwise operation is tf.math.reduce_all.
Args | |
|---|---|
x
|
A tf.Tensor of type bool.
|
y
|
A tf.Tensor of type bool.
|
name
|
A name for the operation (optional). |
Returns | |
|---|---|
A tf.Tensor of type bool with the shape that x and y broadcast to.
|
Args | |
|---|---|
x
|
A Tensor of type bool.
|
y
|
A Tensor of type bool.
|
name
|
A name for the operation (optional). |
Returns | |
|---|---|
A Tensor of type bool.
|