replace placeholder README.md with real content

README.md

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-# New Project Template
+# Jujube
 
-This repository contains a template that can be used to seed a repository for a
-new Google open source project.
 
-See [go/releasing](http://go/releasing) (available externally at
-https://opensource.google/docs/releasing/) for more information about
-releasing a new Google open source project.
+## Disclaimer
 
-This template uses the Apache license, as is Google's default.  See the
-documentation for instructions on using alternate license.
+This is not a Google product. It is an experimental version-control system
+(VCS). It is not ready for use. It was written by me, Martin von Zweigbergk
+(martinvonz@google.com). It is my personal hobby project. It does not indicate
+any commitment or direction from Google.
 
-## How to use this template
 
-1. Clone it from GitHub.
-    * There is no reason to fork it.
-1. Create a new local repository and copy the files from this repo into it.
-1. Modify README.md and docs/contributing.md to represent your project, not the
-   template project.
-1. Develop your new project!
+## Introduction
 
-``` shell
-git clone https://github.com/google/new-project
-mkdir my-new-thing
-cd my-new-thing
-git init
-cp -r ../new-project/* ../new-project/.github .
-git add *
-git commit -a -m 'Boilerplate for new Google open source project'
-```
+I started the project mostly in order to test the viability of some UX ideas in
+practice. I continue to use it for that, but my short-term goal now is to make
+it useful as an alternative CLI for Git repos.
 
-## Source Code Headers
+The storage design is similar to Git's in that it stores commits, trees, and
+blobs. However, the blobs are actually split into three types: normal files,
+symlinks (Unicode paths), and conflicts (more about that later).
 
-Every file containing source code must include copyright and license
-information. This includes any JS/CSS files that you might be serving out to
-browsers. (This is to help well-intentioned people avoid accidental copying that
-doesn't comply with the license.)
+The command-line tool is called `jj` for now because it's easy to type and easy
+to replace (rare in English). The project is called "Jujube" (a fruit) because
+that's the first word I could think of that matched "jj".
 
-Apache header:
 
-    Copyright 2020 Google LLC
+## Features
 
-    Licensed under the Apache License, Version 2.0 (the "License");
-    you may not use this file except in compliance with the License.
-    You may obtain a copy of the License at
+The following subsections describe the current features. The text is aimed at
+readers who are already familiar with other VCSs.
 
-        https://www.apache.org/licenses/LICENSE-2.0
+### Compatible with Git
 
-    Unless required by applicable law or agreed to in writing, software
-    distributed under the License is distributed on an "AS IS" BASIS,
-    WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-    See the License for the specific language governing permissions and
-    limitations under the License.
+The tool currently has two backends. One is called "local store" and is very
+simple and inefficient. The other backend uses a Git repo as storage. The
+commits are stored as regular Git commits. Commits can be read from and written
+to an existing Git repo. This makes it possible to create a Jujube repo and use
+it as an alternative interface for a Git repo (it will be backed by the Git repo
+just like additional Git worktrees are).
+
+### Written as a library
+
+The repo consists of two main parts: the lib crate and the main (CLI)
+crate. Most of the code lives in the lib crate. The lib crate does not print
+anything to the terminal. The separate lib crate should make it relatively
+straight-forward to add a GUI.
+
+
+### Operations are performed repo-first
+
+Almost all operations are done in the repo first and then possibly reflected in
+the working copy. The only exception so far is when committing the working copy,
+which naturally uses the working copy as input.
+
+This makes it faster because the working copy doesn't need to get updated. It
+also means that the working copy won't see spurious changes e.g. during a rebase
+operation. It makes it safe to update the working copy while some operation is
+running.
+
+### Supports Evolution
+
+Jujube copies the Evolution feature from Mercurial. It keeps track of when a
+commit gets rewritten. A commit has a list of predecessors in addition to the
+usual list of parents. This lets the tool figure out where to rebase descendant
+commits to when a commit has been rewritten (amended, rebased, etc.). See
+https://www.mercurial-scm.org/wiki/ChangesetEvolution for more information.
+
+### The working copy is a commit
+
+The working copy gets automatically committed when you interact with the
+tool. This simplifies both implementation and UX. It also means that the working
+copy is frequently backed up.
+
+Any changes to the working copy stays in place when you check out another
+commit. That is different from Git and Mercurial, but I think it's more
+intuitive for new users. To replicate the default behavior of Git/Mercurial, use
+`jj rebase -r @ -d <destination>` (`@` is a name for the working copy
+commit). There is no need to stash/unstash.
+
+Commands become more consistent because the same command can operate on the repo
+or another commit. For example, `jj log` includes the working copy (much like
+`gitk` and other tools include a node for the working copy). `jj squash`
+squashes a commit into its parent, including if it's the working copy (like `git
+commit --amend`/`hg amend`).
+
+A commit description can be added to the working copy before "commit". The same
+command (`jj describe`) is used for changing the description of any commit.
+
+### Commits can contains conflicts
+
+When a merge conflict happens, it is recorded within the tree object as a
+special conflict object (not a file object with conflict markers). Conflicts are
+stored as a lists of states to add and another list of states to remove. A
+regular 3-way merge adds [B,C] and removes [A] (the common ancestor). A
+modify/remove conflict adds [B] and removes [A]. An add/add conflict adds
+[B,C]. An octopus merge of N commits adds N states and removes N-1 states. A
+non-conflict state A is equivalent to a conflict state that just adds [A]. A
+"state" here can be a normal file, a symlink, or a tree. This support for
+in-tree conflicts has some interesting effects on both implementation and UX.
+
+It means that there is a consistent way of resolving conflicts: check out a
+commit with conflicts in, resolve the conflicts, and amend them into the
+conflicted commit. Then evolve descendant commits.
+
+It naturally enables collaborative conflict resolution.
+
+The in-tree conflicts means that there is no need for book-keeping in
+rebase-like commands to support continue/abort operations. Instead, the rebase
+can simply continue and create the desired new DAG shape.
+
+Conflicts get simplified on rebase by removing pairs of matching states in the
+"add" and "remove" lists. For example, if B is based on A and then rebased to C,
+and then to D, it will be a regular 3-way merge between B, and D with C as base
+(no trace of A). This means that you can keep old commits rebased to head
+without resolving conflicts, and you still won't have messy recursive conflicts.
+
+The conflict handling also results in some Darcs-/Pijul-like properties. For
+example, if you rebase a commit and it results in conflicts, and you then back
+out that commit, the conflict will go away. (I plan to make that work even if
+there had been unrelated changes in the file, but I haven't gotten around to it
+yet.)
+
+The criss-cross merge case becomes simpler. In Git, the virtual ancestor may
+have conflicts and you may get nested conflict markers in the working copy. In
+Jujube, the result is a merge with multiple parts, which may even get simplified
+to not be recursive.
+
+The in-tree conflicts make it natural and easy to define the contents of a merge
+commit to be the difference compared to the merged parents (the so-called "evil"
+part of the merge), so that's what Jujube does. Rebasing merge commits therefore
+works as you would expect (Git and Mercurial both handle rebasing of merge
+commits poorly). It's even possible to change the number of parents while
+rebasing, so if A is non-merge commit, you can make it a merge commit a merge
+commit with `jj rebase -r A -d B -d C`. `jj diff -r <commit>` will show you the
+diff compared to the merged parents.
+
+I intend for commands that present the contents of a tree (such as listing
+files) to use the "add" state(s) of the conflict, but that's not yet done.
+
+### Operations are logged
+
+Each write operation is logged to a content-addressed storage, much like the
+commit storage. The Operation object has an associated View object, much like
+the Commit object has a Tree object. The view object contains all the heads
+currently in the repo, as well as the checked-out commit. It will also contain
+the refs if I add support for that. The operation object can have multiple
+parent operations, so it forms a DAG just like the commit graph does. There is
+normally only one parent operation, but there can be multiple parents if
+concurrent operations happened.
+
+I added the operation log as a solution for the problem of making concurrent
+repo edit safe. When the repo is loaded, it is loaded at a particular operation,
+which provides an immutable view of the repo. For a caller of the library to
+start making changes, they then have to start a transaction. Once they are done
+making changes to the transaction, they commit. The operation object is then
+created. This step cannot fail (except if the file system runs out of space or
+such). Pointers to the heads of the operation DAG are kept as files in a
+directory (the filename is the operation id). When a new operation object has
+been created, its operation id is added to the directory. The transaction's base
+opertion id is then removed from that directory. If concurrent operations
+happened, there would be multiple new operation ids in the directory and only
+one base operation id would have been removed. If a reader sees the repo in this
+state, it will attempt to merge the views and create a new operation with
+multiple parents. If there are conflicts, the user will have to resolve it (I
+haven't implemented that yet).
+
+As a nice side-effect of adding the operation log to solve the concurrent-edits
+problem, we get some very useful UX features. Many UX features come from mapping
+commands that work on the commit graph onto the operation graph. For example, if
+you map `git revert`/`hg backout` onto the operation graph, you get an operation
+that undoes a previous operation (called `jj op undo`). Note that any operation
+can be undo, not just the latest one. If you map `git restore`/`hg revert` onto
+the operation graph, you get an operation that rewinds the repo state to an
+earlier point (called `jj op restore`).
+
+You can also see what the repo looked like at an earlier point with `jj
+--at-op=<operation id> log`. As mentioned earlier, the checkout is also part of
+the view, so that command will show you where the working copy was at that
+operation. If you do `jj restore -o <operation id>`, it will also update the
+working copy accordingly. This is actually how the working copy is always
+updated: we first commit a transaction with a pointer to the new checkout and
+then the working copy is updated to reflect that.
+
+## Future plans
+
+TODO