ped

The perfect editor or possibly the worst editor. Ped is a vim-like editor made for the terminal using ncurses.

Getting started

Package managers

Warning

Ped is still in a every early state of development, expect bugs or flaws

Release page

If your favourite package manager is not yet supported, try downloading a release tarball from the releases page.

Unzipping the tarball

tar -xf ped-VERSION.tar.gz && cd ped-VERSION

Configuring and building ped from the tarball

./configure && make

Installing

sudo make install

Building on your own

Prerequisites

• autotools
• make
• gcc
• pkg-config
• ncurses (listed in pkg-config)

Cloning the repo

git clone https://github.com/tim-tm/ped.git && cd ped

Make the generation script executable (only if it isn't as of right now)

chmod +x autogen.sh

Generating build files

./autogen.sh

Everything needed to build ped will be stored in ./build, autoconf will generate a bunch of files that you shouldn't care that much about.

Building

make -C build

or

cd build && make

The ped executable will be stored in ./build

Installing ped

sudo make -C build install

or

cd build && sudo make install

Distribution

If you want to share ped with others, consider creating a tarball.

make -C build dist

or

cd build && make dist

There will now be a tarball named ped-VERSION.tar.gz that can be shared with your friends.

Unzipping the tarball

tar -xf ped-VERSION.tar.gz && cd ped-VERSION

Configuring and building ped from the tarball

./configure && make

Installing

sudo make install

Usage

Ped uses different modes, just like vim or other similar editors do.

Mode	Purpose	State
Normal	The normal mode is the starting point of the editor, you can navigate around and access every mode from here, take a look at the keyboard shortcuts for more information.	Partially implemented
Insert	As the name implies, the insert mode is made for inserting characters into a buffer (file).	Partially implemented
Visual	The visual mode is useful for selecting and moving bigger pieces of file data.	not yet implemented
Search	The search mode makes it possible to search inside of buffers (files).	not yet implemented

Here is a list of all currently supported keybinds.

Mode	Key	Effect
Any	Escape	Go into normal mode
Any	Ctrl+q	Exit ped
Normal	j/Down	Move the cursor down
Normal	k/Up	Move the cursor up
Normal	l/Right	Move the cursor right
Normal	h/Left	Move the cursor left
Normal	a	Enter insert mode (in vim, 'a' is means append and 'i' means insert, ped is for now only able to append)
Normal	v	Enter visual mode
Normal	/	Enter search mode
Normal	Ctrl+s	Save current buffer
Insert	Down	Move the cursor down
Insert	Up	Move the cursor up
Insert	Right	Move the cursor right
Insert	Left	Move the cursor left
Insert	Backspace	Delete the character in front of the cursor
Insert	Entf	Delete the character selected by the cursor
Insert	Enter	Insert an empty line below the cursor

Concept

Ped and storing data

Ped stores file data in form of a 2d-doubly-linked-list. This may sound compilcated but it is a good way of optimizing file operations, such as adding or removing content from a file.

The general structure looks like this:

Character
├── data storage
│   └── value
│       └── The actual character that is being stored (e.g. 'a')
└── references
    ├── next
    │   └── Pointer to the next character
    └── prev
        └── Pointer to the previous character
Line
├── infos
│   └── size
│       └── amount of characters
├── data storage
│   ├── chars
│   │   └── every character of a line
│   ├── first_char
│   │   └── first char of a line
│   └── last_char
│       └── last char of a line
└── references
    ├── next
    │   └── Pointer to the next line
    └── prev
        └── Pointer to the previous line
Buffer
├── infos
│   ├── filename
│   │   └── Name of the buffer (file) being read from/being written to
│   └── size
│       └── amount of lines
└── data storage
    ├── lines
    │   └── every line of the buffer (file)
    ├── first_line
    │   └── the first line
    └── last_line
        └── the last line

Example:

test.txt

hi!
qa!

The serialized data would look like this:

Buffer
├── filename
│   └── "test.txt"
├── size
│   └── 2
├── lines
│   ├── size
│   │   └── 4
│   ├── chars
│   │   ├── 'h'
│   │   ├── next
│   │   │   ├── 'i'
│   │   │   ├── next
│   │   │   │   ├── '!'
│   │   │   │   ├── next
│   │   │   │   │   └── none
│   │   │   │   └── prev
│   │   │   │       ├── 'i'
│   │   │   │       └── ...
│   │   │   └── prev
│   │   │       ├── 'h'
│   │   │       └── ...
│   │   └── prev
│   │       └── none
│   ├── first_char
│   │   ├── 'h'
│   │   ├── next
│   │   │   └── ...
│   │   └── prev
│   │       └── none
│   ├── last_char
│   │   ├── '!'
│   │   ├── next
│   │   │   └── none
│   │   └── prev
│   │       └── ...
│   ├── next
│   │   ├── size
│   │   │   └── 4
│   │   ├── chars
│   │   │   ├── 'q'
│   │   │   ├── next
│   │   │   │   ├── 'a'
│   │   │   │   ├── next
│   │   │   │   │   ├── '!'
│   │   │   │   │   ├── next
│   │   │   │   │   │   └── none
│   │   │   │   │   └── prev
│   │   │   │   │       ├── 'a'
│   │   │   │   │       └── ...
│   │   │   │   └── prev
│   │   │   │       ├── 'q'
│   │   │   │       └── ...
│   │   │   └── prev
│   │   │       └── none
│   │   ├── first_char
│   │   │   ├── 'h'
│   │   │   ├── next
│   │   │   │   └── ...
│   │   │   └── prev
│   │   │       └── none
│   │   ├── last_char
│   │   │   ├── '!'
│   │   │   ├── next
│   │   │   │   └── none
│   │   │   └── prev
│   │   │       └── ...
│   │   └── next
│   │       └── none
│   └── prev
│       └── none
├── first_line
│   ├── size
│   │   └── 4
│   ├── chars
│   │   ├── 'h'
│   │   ├── next
│   │   │   └── ...
│   │   └── prev
│   │       └── none
│   ├── first_char
│   │   ├── 'h'
│   │   ├── next
│   │   │   └── ...
│   │   └── prev
│   │       └── none
│   ├── last_char
│   │   ├── '!'
│   │   ├── next
│   │   │   └── none
│   │   └── prev
│   │       └── ...
│   ├── next
│   │   └── ...
│   └── prev
│       └── none
└── last_line
    ├── size
    │   └── 4
    ├── chars
    │   ├── 'q'
    │   ├── next
    │   │   └── ...
    │   └── prev
    │       └── none
    ├── first_char
    │   ├── 'q'
    │   ├── next
    │   │   └── ...
    │   └── prev
    │       └── none
    ├── last_char
    │   ├── '!'
    │   ├── next
    │   │   └── none
    │   └── prev
    │       └── ...
    ├── next
    │   └── ...
    └── prev
        └── none

This way of storing file-data comes with advantages and disadvantages though. It is easier to mainipulate, insert and append buffer content (Lines, Chars) because you only need to change references. The main downside is the serialization and deserialization, that process is way more complex than just copying a string, which is what you would do if you were to use an array of strings.

Manipulation example:

Original text

abc

Pointer structure: a→b→c

Should be changed to

ac

Pointer structure: a→b→c

In order to change the original text to the new text, we only need to point 'a' to 'c' instead of pointing it to 'b' and 'b' pointing to 'c'. If we stored our data in a 2d-array, we would need to erase 'b' and move every character after 'b' to the left by one in order to fill gaps.

Finding the right character inside of the linked-list takes O(n) time at most, accessing an array takes a constant amount of time (O(1)). Moving memory however is a expensive operation that needs to be done for n characters at most. Changing the reference of a character only needs to be done once.

Even though linked-lists are faster to manipulate, this is a choice of preference. It is definetly much more simple to store buffer data in an array of strings.

Contributing

Steps to contribution:

1. Make a fork of ped
2. create a feature branch (optional, may be done on bigger changes tho)
3. Add and test your changes inside of your fork
4. Open a pull request if you're happy with your contribution

Your changes should not be extremely huge, if you really want to contribute something that may break the editor or introduce a dramatical change, please open an issue first in order to discuss your ideas.

License

Ped is licensed under the MIT License.