I am new to tensorflow and more advanced machine learning, so I tried to get a better grasp of RNNs by implementing one by hand instead of using tf.contrib.rnn.RNNCell. My first problem was that I needed to unroll the net for backpropogation so I looped through my sequence and I needed to keep consistent weights and biases, so I couldn't reinitialize a dense layer with tf.layers.dense each time, but I also needed to have my layer connected to the current timestep of my sequence and I couldn't find a way to change what a dense layer was connected to. To work around this I tried to implement my own version of tf.layers.dense, and this worked fine until I got the error: NotImplementedError("Trying to update a Tensor " ...) when I tried to optimize my custom dense layers.

My code:

```
import tensorflow as tf
import numpy as np
from tensorflow.contrib import rnn
import random
# -----------------
# WORD PARAMETERS
# -----------------
target_string = ['Hello ','Hello ','World ','World ', '!']
number_input_words = 1
# --------------------------
# TRAINING HYPERPARAMETERS
# --------------------------
training_steps = 4000
batch_size = 9
learning_rate = 0.01
display_step = 150
hidden_cells = 20
# ----------------------
# PREPARE DATA AS DICT
# ----------------------
# TODO AUTOMATICALLY CREATE DICT
dictionary = {'Hello ': 0, 'World ': 1, '!': 2}
reverse_dictionary = dict(zip(dictionary.values(), dictionary.keys()))
vocab_size = len(dictionary)
# ------------
# LSTM MODEL
# ------------
class LSTM:
def __init__(self, sequence_length, number_input_words, hidden_cells, mem_size_x, mem_size_y, learning_rate):
self.sequence = tf.placeholder(tf.float32, (sequence_length, vocab_size), 'sequence')
self.memory = tf.zeros([mem_size_x, mem_size_y])
# sequence_length = self.sequence.shape[0]
units = [vocab_size, 5,4,2,6, vocab_size]
weights = [tf.random_uniform((units[i-1], units[i])) for i in range(len(units))[1:]]
biases = [tf.random_uniform((1, units[i])) for i in range(len(units))[1:]]
self.total_loss = 0
self.outputs = []
for word in range(sequence_length-1):
sequence_w = tf.reshape(self.sequence[word], [1, vocab_size])
layers = []
for i in range(len(weights)):
if i == 0:
layers.append(tf.matmul(sequence_w, weights[0]) + biases[0])
else:
layers.append(tf.matmul(layers[i-1], weights[i]) + biases[i])
percentages = tf.nn.softmax(logits=layers[-1])
self.outputs.append(percentages)
self.total_loss += tf.losses.absolute_difference(tf.reshape(self.sequence[word+1], (1, vocab_size)), tf.reshape(percentages, (1, vocab_size)))
optimizer = tf.train.AdamOptimizer(learning_rate=learning_rate)
self.train_operation = optimizer.minimize(loss=self.total_loss, var_list=weights+biases, global_step=tf.train.get_global_step())
lstm = LSTM(len(target_string), number_input_words, hidden_cells, 10, 5, learning_rate)
# ---------------
# START SESSION
# ---------------
with tf.Session() as sess:
sess.run(tf.local_variables_initializer())
sess.run(tf.global_variables_initializer())
sequence = []
for i in range(len(target_string)):
x = [0]*vocab_size
x[dictionary[target_string[i]]] = 1
sequence.append(x)
print(sequence)
for x in range(1000):
sess.run(lstm.train_operation, feed_dict={lstm.sequence: sequence})
prediction, loss = sess.run((lstm.outputs, lstm.total_loss), feed_dict= {lstm.sequence: sequence})
print(prediction)
print(loss)
```

Any answers that tell me either how to either connect tf.layers.dense to different variables each time or tell me how to get around my NotImplementedError would be greatly appreciated. I apologize if this question is lengthy or just badly worded, i'm still new to stackoverflow.

EDIT:

I've updated the LSTM class part of my code to:
(Inside def **init**)

```
self.sequence = [tf.placeholder(tf.float32, (batch_size, vocab_size), 'sequence') for _ in range(sequence_length-1)]
self.total_loss = 0
self.outputs = []
rnn_cell = rnn.BasicLSTMCell(hidden_cells)
h = tf.zeros((batch_size, hidden_cells))
for i in range(sequence_length-1):
current_sequence = self.sequence[i]
h = rnn_cell(current_sequence, h)
self.outputs.append(h)
```

But I still get an error on the line: `h = rnn_cell(current_sequence, h)`

about not being able to iterate over tensors. I'm not trying to iterate over any tensors, and if I am I don't mean to.