I am trying to create a generative LSTM network in Tensorflow. I have input vectors like this:

```
[[0 0 1 0 ... 1 0]
[0 0 1 0 ... 1 0]
...
[0 0 0 1 ... 0 1]]
```

Each vector in this matrix is be one time step, or in other words, each vector should be one input to LSTM. Outputs would be the same, except they would be shifted by one time step to right (I am trying to predict next output). Then I have list of these matrices, say five of them - that is one batch. And finally I have list of those batches, which essentially are my training data. So basically I have 4D tensor.

I have tried to do something like this, but obviously it doesn't work and I am not quite sure I understand how would I solve it:

```
def LSTM(x_, weights, biases):
cell = tf.contrib.rnn.BasicLSTMCell(RNN_HIDDEN)
# initial state
batch_size = tf.shape(x_)[1]
initial_state = cell.zero_state(batch_size, tf.float32)
rnn_outputs, rnn_states = tf.nn.dynamic_rnn(cell,
x_,
initial_state=initial_state,
time_major=False)
return tf.matmul(rnn_outputs[-1], weights['out']) + biases['out']
```

So, how should I represent data so that network would be able to process it?

Also, I am not quite sure how to define loss in this case. My vectors are 88-dimensional, where each index represents one tone. '1' means tone is played, '0' - tone is off. Also, when specific tone is played, and then played again, I mark that with '2' (vectors truncated for brevity):

```
[0 0 1 0]
[0 0 1 0]
[0 0 2 0]
[0 0 2 0]
```

If here would be only ones, I would not be able to distinguish if it is one long tone, or two (or three, or four) shorter ones. This way I alternate between 1s and 2s and each alternation means a tone is pressed again.

Do I need to manually calculate cross entropy here?