Dev/fix doc of some api (#28785)

* refine doc of bernoulli

* fix some problems

* fix unsqueeze

* fix squeeze

* fix doc

python/paddle/amp/grad_scaler.py

@@ -54,9 +54,11 @@ class GradScaler(AmpScaler):
             optimizer = paddle.optimizer.SGD(learning_rate=0.01, parameters=model.parameters())
             scaler = paddle.amp.GradScaler(init_loss_scaling=1024)
             data = paddle.rand([10, 3, 32, 32])
+
             with paddle.amp.auto_cast():
                 conv = model(data)
                 loss = paddle.mean(conv)
+                
             scaled = scaler.scale(loss)  # scale the loss 
             scaled.backward()            # do backward
             scaler.minimize(optimizer, scaled)  # update parameters     
@@ -86,6 +88,7 @@ class GradScaler(AmpScaler):
             The scaled tensor or original tensor.
         
         Examples:
+
             .. code-block:: python
 
                 import paddle
@@ -94,9 +97,11 @@ class GradScaler(AmpScaler):
                 optimizer = paddle.optimizer.SGD(learning_rate=0.01, parameters=model.parameters())
                 scaler = paddle.amp.GradScaler(init_loss_scaling=1024)
                 data = paddle.rand([10, 3, 32, 32])
+
                 with paddle.amp.auto_cast():
                     conv = model(data)
                     loss = paddle.mean(conv)
+
                 scaled = scaler.scale(loss)  # scale the loss 
                 scaled.backward()            # do backward
                 scaler.minimize(optimizer, scaled)  # update parameters  
@@ -118,6 +123,7 @@ class GradScaler(AmpScaler):
             kwargs: Keyword arguments, which will be forward to `optimizer.minimize()`.
 
         Examples:
+
             .. code-block:: python
 
                 import paddle
@@ -126,9 +132,11 @@ class GradScaler(AmpScaler):
                 optimizer = paddle.optimizer.SGD(learning_rate=0.01, parameters=model.parameters())
                 scaler = paddle.amp.GradScaler(init_loss_scaling=1024)
                 data = paddle.rand([10, 3, 32, 32])
+
                 with paddle.amp.auto_cast():
                     conv = model(data)
                     loss = paddle.mean(conv)
+
                 scaled = scaler.scale(loss)  # scale the loss 
                 scaled.backward()            # do backward
                 scaler.minimize(optimizer, scaled)  # update parameters  

python/paddle/nn/layer/loss.py

@@ -491,29 +491,27 @@ class L1Loss(fluid.dygraph.Layer):
             If `reduction` is ``'mean'`` or ``'sum'``, the shape of output loss is [1].
 
     Examples:
+        
         .. code-block:: python
+
             import paddle
-            import numpy as np
 
-            paddle.disable_static()
-            input_data = np.array([[1.5, 0.8], [0.2, 1.3]]).astype("float32")
-            label_data = np.array([[1.7, 1], [0.4, 0.5]]).astype("float32")
-            input = paddle.to_tensor(input_data)
-            label = paddle.to_tensor(label_data)
+            input = paddle.to_tensor([[1.5, 0.8], [0.2, 1.3]])
+            label = paddle.to_tensor([[1.7, 1.0], [0.4, 0.5]])
 
             l1_loss = paddle.nn.loss.L1Loss()
             output = l1_loss(input, label)
-            print(output.numpy())
+            print(output)
             # [0.35]
 
             l1_loss = paddle.nn.loss.L1Loss(reduction='sum')
             output = l1_loss(input, label)
-            print(output.numpy())
+            print(output)
             # [1.4]
 
             l1_loss = paddle.nn.loss.L1Loss(reduction='none')
             output = l1_loss(input, label)
-            print(output.numpy())
+            print(output)
             # [[0.20000005 0.19999999]
             #  [0.2        0.79999995]]
     """
@@ -1001,7 +999,7 @@ class SmoothL1Loss(fluid.dygraph.Layer):
             is the same as the shape of input.
 
     Returns:
-        The tensor variable storing the smooth_l1_loss of input and label.
+        The tensor storing the smooth_l1_loss of input and label.
 
     Return type: Tensor.
 

python/paddle/tensor/manipulation.py

@@ -354,9 +354,6 @@ def roll(x, shifts, axis=None, name=None):
 
 def stack(x, axis=0, name=None):
     """
-	:alias_main: paddle.stack
-	:alias: paddle.stack, paddle.tensor.stack, paddle.tensor.manipulation.stack
-
     This OP stacks all the input tensors ``x`` along ``axis`` dimemsion. 
     All tensors must be of the same shape and same dtype.
     
@@ -423,13 +420,12 @@ def stack(x, axis=0, name=None):
 
             import paddle
             
-            paddle.disable_static()
             x1 = paddle.to_tensor([[1.0, 2.0]])
             x2 = paddle.to_tensor([[3.0, 4.0]])
             x3 = paddle.to_tensor([[5.0, 6.0]])
             out = paddle.stack([x1, x2, x3], axis=0)
             print(out.shape)  # [3, 1, 2]
-            print(out.numpy())
+            print(out)
             # [[[1., 2.]],
             #  [[3., 4.]],
             #  [[5., 6.]]]
@@ -459,34 +455,31 @@ def split(x, num_or_sections, axis=0, name=None):
     Example:
         .. code-block:: python
             
-            import numpy as np
             import paddle
             
-            # x is a Tensor which shape is [3, 9, 5]
-            x_np = np.random.random([3, 9, 5]).astype("int32")
-            x = paddle.to_tensor(x_np)
+            # x is a Tensor of shape [3, 9, 5]
+            x = paddle.rand([3, 9, 5])
 
-            out0, out1, out22 = paddle.split(x, num_or_sections=3, axis=1)
-            # out0.shape [3, 3, 5]
-            # out1.shape [3, 3, 5]
-            # out2.shape [3, 3, 5]
+            out0, out1, out2 = paddle.split(x, num_or_sections=3, axis=1)
+            print(out0.shape)  # [3, 3, 5]
+            print(out1.shape)  # [3, 3, 5]
+            print(out2.shape)  # [3, 3, 5]
 
             out0, out1, out2 = paddle.split(x, num_or_sections=[2, 3, 4], axis=1)
-            # out0.shape [3, 2, 5]
-            # out1.shape [3, 3, 5]
-            # out2.shape [3, 4, 5]
+            print(out0.shape)  # [3, 2, 5]
+            print(out1.shape)  # [3, 3, 5]
+            print(out2.shape)  # [3, 4, 5]
 
             out0, out1, out2 = paddle.split(x, num_or_sections=[2, 3, -1], axis=1)
-            # out0.shape [3, 2, 5]
-            # out1.shape [3, 3, 5]
-            # out2.shape [3, 4, 5]
+            print(out0.shape)  # [3, 2, 5]
+            print(out1.shape)  # [3, 3, 5]
+            print(out2.shape)  # [3, 4, 5]
             
-            # axis is negative, the real axis is (rank(x) + axis) which real
-            # value is 1.
+            # axis is negative, the real axis is (rank(x) + axis)=1
             out0, out1, out2 = paddle.split(x, num_or_sections=3, axis=-2)
-            # out0.shape [3, 3, 5]
-            # out1.shape [3, 3, 5]
-            # out2.shape [3, 3, 5]
+            print(out0.shape)  # [3, 3, 5]
+            print(out1.shape)  # [3, 3, 5]
+            print(out2.shape)  # [3, 3, 5]
     """
     return paddle.fluid.layers.split(
         input=x, num_or_sections=num_or_sections, dim=axis, name=name)
@@ -494,9 +487,6 @@ def split(x, num_or_sections, axis=0, name=None):
 
 def squeeze(x, axis=None, name=None):
     """
-	:alias_main: paddle.squeeze
-	:alias: paddle.squeeze, paddle.tensor.squeeze, paddle.tensor.manipulation.squeeze
-
     This OP will squeeze the dimension(s) of size 1 of input tensor x's shape. 
 
     If axis is provided, it will remove the dimension(s) by given axis that of size 1. 
@@ -553,11 +543,9 @@ def squeeze(x, axis=None, name=None):
 
             import paddle
             
-            paddle.disable_static()
-            
             x = paddle.rand([5, 1, 10])
             output = paddle.squeeze(x, axis=1)
-            # output.shape [5, 10]
+            print(output.shape)  # [5, 10]
 
     """
     if axis is None:
@@ -695,9 +683,6 @@ def unique(x,
 
 def unsqueeze(x, axis, name=None):
     """
-	:alias_main: paddle.unsqueeze
-	:alias: paddle.unsqueeze, paddle.tensor.unsqueeze, paddle.tensor.manipulation.unsqueeze
-
     Insert single-dimensional entries to the shape of input Tensor ``x``. Takes one
     required argument axis, a dimension or list of dimensions that will be inserted.
     Dimension indices in axis are as seen in the output tensor.
@@ -718,7 +703,6 @@ def unsqueeze(x, axis, name=None):
 
             import paddle
 
-            paddle.disable_static()
             x = paddle.rand([5, 10])
             print(x.shape)  # [5, 10]
             
@@ -728,7 +712,7 @@ def unsqueeze(x, axis, name=None):
             out2 = paddle.unsqueeze(x, axis=[0, 2]) 
             print(out2.shape)  # [1, 5, 1, 10]
 
-            axis = paddle.fluid.dygraph.to_variable([0, 1, 2])
+            axis = paddle.to_tensor([0, 1, 2])
             out3 = paddle.unsqueeze(x, axis=axis) 
             print(out3.shape)  # [1, 1, 1, 5, 10]
             

python/paddle/tensor/random.py

@@ -59,17 +59,18 @@ def bernoulli(x, name=None):
 
             import paddle
 
-            paddle.seed(100) # on CPU device
+            paddle.set_device('cpu')  # on CPU device
+            paddle.seed(100) 
+
             x = paddle.rand([2,3])
-            print(x.numpy())
-            # [[0.5535528  0.20714243 0.01162981]
-            # [0.51577556 0.36369765 0.2609165 ]]
+            print(x)
+            # [[0.55355281, 0.20714243, 0.01162981],
+            #  [0.51577556, 0.36369765, 0.26091650]]
 
-            paddle.seed(200) # on CPU device
             out = paddle.bernoulli(x)
-            print(out.numpy())
-            # [[0. 0. 0.]
-            # [1. 1. 0.]]
+            print(out)
+            # [[1., 0., 1.],
+            #  [0., 1., 0.]]
 
     """