I am fitting a stateful RNN with embedding layer to perform binary classification. I am having some confusion with the batch_size and batch_shape needed in the function APIs.

```
xtrain_padded.shape = (9600, 1403); xtest_padded.shape = (2400, 1403); ytest.shape = (2400,)
input_dim = size of tokenizer word dictionary
output_dim = 100 from GloVe_100d embeddings
number of SimpleRNN layer units = 200
h0: initial hidden states sampled from random uniform.
h0 object has the same shape as RNN layer hidden states obtained when return_state = True.
```

The model structure:

```
batch_size = 2400 # highest common factor of xtrain and xtest
inp= Input(batch_shape= (batch_size, input_length), name= 'input')
emb_out= Embedding(input_dim, output_dim, input_length= input_length,
weights= [Emat], trainable= False, name= 'embedding')(inp)
rnn= SimpleRNN(200, return_sequences= True, return_state= True, stateful= True,
batch_size= (batch_size, input_length, 100), name= 'simpleRNN')
h_0 = tf.random.uniform((batch_size, input_length, 200))
rnn_out, rnn_state = rnn(emb_out, initial_state=h0)
mod_out= Dense(1, activation= 'sigmoid')(rnn_out)
# Extract the y_t's and h_t's:
model = Model(inputs=inp, outputs=[mod_out, rnn_out])
model.compile(optimizer='adam', loss='binary_crossentropy', metrics=['acc'])
model.summary()
_________________________________________________________________
Layer (type) Output Shape Param #
=================================================================
input (InputLayer) [(2400, 1403)] 0
_________________________________________________________________
embedding (Embedding) (2400, 1403, 100) 4348900
_________________________________________________________________
simpleRNN (SimpleRNN) [(2400, 1403, 200), (2400 60200
_________________________________________________________________
dense_3 (Dense) (2400, 1403, 1) 201
```

No issue when I fit the test data to model using the model API:

```
mod_out_allsteps, rnn_ht= model(xte_pad) # Same as the 2 items from model.predict(xte_pad)
print(mod_out_allsteps.shape, rnn_ht.shape)
>> (2400, 1403, 1) (2400, 1403, 200)
```

However it raised a ValueError regarding unequal dimensions when I use `model.fit`

.

```
model.fit(xte_pad, yte, epochs =1, batch_size = batch_size, verbose = 1)
>>
ValueError: Dimensions must be equal, but are 2400 and 1403 for '{{node binary_crossentropy_1/mul}} = Mul[T=DT_FLOAT](binary_crossentropy_1/Cast, binary_crossentropy_1/Log)' with input shapes: [2400,1], [2400,1403,200].
```

The error seems to suggest the model has confused the returned hidden states `rnn_ht`

shaped [2400,1403,200] with something else when fitting the data. However I am going to need these states for computing the gradients on the initial hidden states i.e.
for t = 1,..., 1403.

I am confused with the dimensions in stateful RNNs:

- If stateful = True, are we constructing the model based on one mini-batch?

i.e. the first index in Output Shape of each layer will be the batch_size? - What is the batch_shape to be set in the first layer (Input)? Have I set it right?

Thank you in advance for helping with the error and my confusion!

Update:

```
batch_size = 2400 # highest common factor of xtrain and xtest
input_length = 1403
output_dim = 100
inp= tf.keras.layers.Input(batch_shape= (batch_size, input_length), name= 'input')
emb_out= tf.keras.layers.Embedding(500, output_dim, input_length= input_length, trainable= False, name= 'embedding')(inp)
rnn= tf.keras.layers.SimpleRNN(200, return_sequences= True, return_state= False, stateful= True,
batch_size= (batch_size, input_length, 100), name= 'simpleRNN')
rnn_ht= rnn(emb_out) # hidden states at all steps
print(rnn_ht.shape)
>>>
(2400, 1403, 200)
mod_out= Dense(1, activation= 'sigmoid')(Flatten()(rnn_ht))
# Extract the y_t's and h_t's:
model = tf.keras.Model(inputs=inp, outputs=[mod_out, rnn_ht])
model.compile(optimizer='adam', loss='binary_crossentropy', metrics=['acc'])
model.summary()
_________________________________________________________________
Layer (type) Output Shape Param #
=================================================================
input (InputLayer) [(2400, 1403)] 0
_________________________________________________________________
embedding (Embedding) (2400, 1403, 100) 50000
_________________________________________________________________
simpleRNN (SimpleRNN) (2400, 1403, 200) 60200
_________________________________________________________________
flatten_4 (Flatten) (2400, 280600) 0
_________________________________________________________________
dense_4 (Dense) (2400, 1) 280601
mod_out_allsteps, rnn_ht= model_ht(xte_pad)
print(mod_out_allsteps.shape, rnn_ht.shape)
>>>
(2400, 1) (2400, 1403, 200)
But the error with ```model.fit``` persists.
```