There are certain generalities that have to be followed in order to create a block cipher. The code you have shown **is technically not a block cipher**. Generalities such as:

- In a block cipher
**the message is broken into blocks**, **each** of which is then **encrypted** (ie like a substitution on very big characters - 64-bits or more)
- A block cipher
**consists of two paired algorithms**, one for **encryption, E, and the other for decryption, E−1**. Both algorithms accept two inputs: an **input block of size n bits** and a **key of size k bits**, yielding an n-bit output block. For any one fixed key, **decryption is the inverse function of encryption**.

Encryption in block cipher mode (ECB, CBC) uses a specific flow:

- The first thing that a block cipher must do is
**break the plaintext into equally-sized blocks**, usually 8 bytes, for instance the ASCII encoding of `imablock`

.
- Encrypt the plaintext using a cipher.
- Decrypt the message.

The choice of cipher is implementation dependent.

The point being, **while you may have followed the flow for Encryption-Decryption, you program doesn't satisfy the generalities of block ciphers.** You need to break your message into **blocks** to implement a symmetric cipher.

What **you have implemented**, is **simple encryption and not a block cipher**.

There are so many references:

Hope it helps. :)